De novo designed NTF2-like scaffolds for de novo design of enzymes and small molecule binders

ABSTRACT

Polypeptide are disclosed that comprise an amino acid sequence at least 35%, 40%, 45%, 50%, 55%, 60%, 65%, 70%, 75%, 80%, 85%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98%, 99%, or 100% identical to the amino acid sequence selected from the group consisting of SEQ ID NO:1-1615, not including any functional domains added fused to the protein (whether N-terminal, C-terminal, or internal), and wherein the 1, 2, 3, 4, or 5 N-terminal and/or C-terminal amino acid residues may be present or absent when considering the percent identity.

RELATED APPLICATIONS

This application claims priority to U.S. Provisional Application 63/300,178 filed Jan. 17, 2022, incorporated by reference herein in its entirety.

FEDERAL FUNDING STATEMENT

This invention was made with government support under Grant No. BB/S017135/1, awarded by the National Science Foundation. The government has certain rights in the invention.

REFERENCE TO AN ELECTRONIC SEQUENCE LISTING

A computer readable form of the Sequence Listing is filed with this application by electronic submission and is hereby incorporated by reference in its entirety. The Sequence Listing is contained in the XML file created on Jan. 11, 2023 having the name “21-1623-US.xml” and is 1,589,305 bytes in size

BACKGROUND

Computational enzyme design generally starts from an ideal active site or theozyme, consisting of protein functional groups surrounding the reaction transition state that is then matched into a set of existing scaffolds - typically, native proteins. However, de novo enzyme design has been limited by a lack of suitable protein structures and the complexity of native protein sequence-structure relationships.

SUMMARY

In one aspect, the disclosure provides polypeptides comprising an amino acid sequence at least 35%, 40%, 45%, 50%, 55%, 60%, 65%, 70%, 75%, 80%, 85%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98%, 99%, or 100% identical to the amino acid sequence selected from the group consisting of SEQ ID NO:1-1615, not including any functional domains added fused to the protein (whether N-terminal, C-terminal, or internal), and wherein the 1, 2, 3, 4, or 5 N-terminal and/or C-terminal amino acid residues may be present or absent when considering the percent identity. In one embodiment, the polypeptide comprises the secondary structure arrangement H1-L1-H2-L2-E1-L3-E2-L4-H3-L5-E3-L6-E4-L7-E5-L8-E6, wherein “H” is a helical domain, “L” is a loop domain, and “E” is a beta strand domain. In another embodiment, the disclosure provides fusion proteins comprising a polypeptide of the disclosure fused to one or more functional polypeptides.

In one embodiment, the disclosure provides nucleic acids encoding the protein or fusion protein of any embodiment disclosed herein. In another embodiment, the disclosure provides expression vectors comprising the nucleic acid of any embodiment operatively linked to a suitable control sequence. In a further embodiment, the disclosure provides host cells comprising the polypeptide, fusion protein, nucleic acid, and/or expression vector of any embodiment herein. In another embodiment, the disclosure provides libraries comprising 5, 10, 35, 50, 100, 250, 500, 750, 1000, or more different polypeptides, fusion proteins, nucleic acids, expression vectors, and/or host cells of any embodiment herein. In one embodiment, the disclosure provides methods for use of the polypeptides, fusion proteins, nucleic acids, expression vectors, host cells, and/or libraries of any embodiment herein, including but not limited to as specific protein and small molecule binders, and to identify specific protein and small molecule binders.

DESCRIPTION OF FIGURE

FIG. 1A-FIG. 1G: Generation of idealized scaffolds and computational design of de novo luciferases. (FIG. 1A) Family-wide hallucination. Sequences encoding proteins with the desired topology are optimized by Monte Carlo sampling with a multicomponent loss function. Structurally conserved regions are evaluated based on consistency with input residue-residue distance and orientation distributions obtained from 85 experimental structures of NTF2-like proteins, while variable non-ideal regions are evaluated based on the confidence of predicted inter-residue geometries calculated as the KL-divergence between network predictions and the background distribution. The sequence-space MCMC-sampling incorporates both sequence changes and insertions/deletions (see Methods) to guide the hallucinated sequence towards encoding structures with the desired folds. Hydrogen-bonding networks are incorporated into the designed structures to increase structural specificity. (FIG. 1B-FIG. 1D) The design of luciferase active sites. (FIG. 1B) Generation of DTZ conformers using AIMNet. (FIG. 1C) Generation of a rotamer interaction field (RIF) to stabilize the anionic DTZ and form hydrophobic packing interactions around the DTZ conformers. (FIG. 1D) Docking of the RIF into the hallucinated scaffolds, and optimization of substrate-scaffold interactions using position-specific score matrices (PSSM)-biased sequence design. (FIG. 1E) Selection of the NTF2 topology. The RIF was docked into 4000 native small molecule binding proteins, excluding proteins that bind the luciferin substrate using more than 5 loop residues. Most of the top hits were from the NTF2-like protein superfamily. Using the family-wide hallucination scaffold generation protocol, we generated 1615 scaffolds and found that these yielded better predicted RIF binding energies than the native proteins. (FIG. 1F) Scaffolds generated with family-wide hallucination sample more within the space of the native structures than previous blueprint generated scaffolds, and (FIG. 1G) have stronger sequence to structure relationships than native or blueprint de novo NTF2 scaffolds.

DETAILED DESCRIPTION

All references cited are herein incorporated by reference in their entirety. Within this application, unless otherwise stated, the techniques utilized may be found in any of several well-known references such as: Molecular Cloning: A Laboratory Manual (Sambrook, et al., 1989, Cold Spring Harbor Laboratory Press), Gene Expression Technology (Methods in Enzymology, Vol. 185, edited by D. Goeddel, 1991. Academic Press, San Diego, CA), “Guide to Protein Purification” in Methods in Enzymology (M.P. Deutshcer, ed., (1990) Academic Press, Inc.); PCR Protocols: A Guide to Methods and Applications (Innis, et al. 1990. Academic Press, San Diego, CA), Culture of Animal Cells: A Manual of Basic Technique, 2nd Ed. (R.I. Freshney. 1987. Liss, Inc. New York, NY), Gene Transfer and Expression Protocols, pp. 109-128, ed. E.J. Murray, The Humana Press Inc., Clifton, N.J.), and the Ambion 1998 Catalog (Ambion, Austin, TX).

As used herein, the singular forms “a”, “an” and “the” include plural referents unless the context clearly dictates otherwise.

As used herein, the amino acid residues are abbreviated as follows: alanine (Ala; A), asparagine (Asn; N), aspartic acid (Asp; D), arginine (Arg; R), cysteine (Cys; C), glutamic acid (Glu; E), glutamine (Gln; Q), glycine (Gly; G), histidine (His; H), isoleucine (Ile; I), leucine (Leu; L), lysine (Lys; K), methionine (Met; M), phenylalanine (Phe; F), proline (Pro; P), serine (Ser; S), threonine (Thr; T), tryptophan (Trp; W), tyrosine (Tyr; Y), and valine (Val; V).

In all embodiments of polypeptides disclosed herein, any N-terminal methionine residues are optional (i.e.: the N-terminal methionine residue may be present or may be absent).

All embodiments of any aspect of the disclosure can be used in combination, unless the context clearly dictates otherwise.

Unless the context clearly requires otherwise, throughout the description and the claims, the words ‘comprise’, ‘comprising’, and the like are to be construed in an inclusive sense as opposed to an exclusive or exhaustive sense; that is to say, in the sense of “including, but not limited to”. Words using the singular or plural number also include the plural and singular number, respectively. Additionally, the words “herein,” “above,” and “below” and words of similar import, when used in this application, shall refer to this application as a whole and not to any particular portions of the application.

In one aspect, the disclosure provides a non-naturally occurring polypeptide comprising an amino acid sequence at least 35%, 40%, 45%, 50%, 55%, 60%, 65%, 70%, 75%, 80%, 85%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98%, 99%, or 100% identical to the amino acid sequence selected from the group consisting of SEQ ID NO:1-1615, not including any functional domains added fused to the protein (whether N-terminal, C-terminal, or internal), and wherein the 1, 2, 3, 4, or 5 N-terminal and/or C-terminal amino acid residues may be present or absent when considering the percent identity. The amino acid sequence of SEQ ID NO:1-1615 are shown in Table 1.

As disclosed in detail in the examples, the inventors designed the polypeptides of SEQ ID NO:1-1615, which serve as scaffolds with pockets of the appropriate size and shape for binding to a target of interest (exemplified in the examples by diphenylterazine (DTZ)). The scaffolds are based on the NTF2-like superfamily as a target topology. The inventors implemented a steered hallucination method to generate idealized structures (FIG. 1A). As seeds for diversification and functionalization, trRosetta was used to generate a diverse set of structural models for 2k naturally occurring NTF2s and used them as seeds. Starting from each native seed structure, steered hallucination of structurally conserved regions was conducted by minimizing an empirical topology-specific loss function over residue pair geometries, while structurally diverse regions (long flexible loops, etc.) were modified both in length and sequence to maximize the confidence of neural network predictions. To further encode structural specificity of the backbone as well as of the binding pocket side chains, the inventors identified buried long-range hydrogen bonding networks in native structures and incorporated these into the idealized scaffolds while designing the sequence constrained by sequence bias of the fold family.

The polypeptides can be used, for example, as specific protein and small molecule binders, and libraries of the polypeptides can be used, for example, to identify specific protein and small molecule binders.

Any N-terminal methionine residues are optional and may be present or absent in the polypeptide and when determining percent identity.

In one embodiment, the percent identity relative to the reference sequence is carried out by sequence alignment with the Needleman-Wunsch algorithm, a common sequence alignment tool for those of skill in the art, which allows for insertions and deletions. In another embodiment, 1, 2, 3, 4, or 5 N-terminal and/or C-terminal amino acid residues are absent and are not included when determining the percent identity relative to the reference amino acid sequence. In another embodiment, all residues in the reference amino acid sequence are included when determining the percent identity relative to the reference amino acid sequence.

In one embodiment, amino acid substitutions relative to the reference amino acid sequence are conservative amino acid substitutions. As used herein, “conservative amino acid substitution” means a given amino acid can be replaced by a residue having similar physiochemical characteristics, e.g., substituting one aliphatic residue for another (such as Ile, Val, Leu, or Ala for one another), or substitution of one polar residue for another (such as between Lys and Arg; Glu and Asp; or Gln and Asn). Other such conservative substitutions, e.g., substitutions of entire regions having similar hydrophobicity characteristics, are known. Proteins comprising conservative amino acid substitutions can be tested in any one of the assays described herein to confirm that a desired activity, is retained. Amino acids can be grouped according to similarities in the properties of their side chains (in A. L. Lehninger, in Biochemistry, second ed., pp. 73-75, Worth Publishers, New York (1975)): (1) non-polar: Ala (A), Val (V), Leu (L), Ile (I), Pro (P), Phe (F), Trp (W), Met (M); (2) uncharged polar: Gly (G), Ser (S), Thr (T), Cys (C), Tyr (Y), Asn (N), Gln (Q); (3) acidic: Asp (D), Glu (E); (4) basic: Lys (K), Arg (R), His (H). Alternatively, naturally occurring residues can be divided into groups based on common side-chain properties: (1) hydrophobic: Norleucine, Met, Ala, Val, Leu, Ile; (2) neutral hydrophilic: Cys, Ser, Thr, Asn, Gln; (3) acidic: Asp, Glu; (4) basic: His, Lys, Arg; (5) residues that influence chain orientation: Gly, Pro; (6) aromatic: Trp, Tyr, Phe. Non-conservative substitutions will entail exchanging a member of one of these classes for another class. Particular conservative substitutions include, for example; Ala into Gly or into Ser; Arg into Lys; Asn into Gln or into H is; Asp into Glu; Cys into Ser; Gln into Asn; Glu into Asp; Gly into Ala or into Pro; His into Asn or into Gln; Ile into Leu or into Val; Leu into Ile or into Val; Lys into Arg, into Gln or into Glu; Met into Leu, into Tyr or into Ile; Phe into Met, into Leu or into Tyr; Ser into Thr; Thr into Ser; Trp into Tyr; Tyr into Trp; and/or Phe into Val, into Ile or into Leu.

In another embodiment, the polypeptide comprises the secondary structure arrangement H1-L1-H2-L2-E1-L3-E2-L4-H3-L5-E3-L6-E4-L7-E5-L8-E6, wherein “H” is a helical domain, “L” is a loop domain, and “E” is a beta strand domain. In some embodiments, domain H1 is 19 amino acids in length, domain H2 is 7 amino acids in length, domain H3 is 14 amino acids in length, domain E1 is 4 amino acids in length, domain E2 is 4 amino acids in length, domain E3 is 10 amino acids in length, domain E4 is 12 amino acids in length, domain E5 is 14 amino acids in length, and domain E6 is 13 amino acids in length.

The loop domains may be of any length and may include insertions, relative to the amino acid sequence of SEQ ID NO:1-1615, of any residues or functional domains as deemed appropriate, including but not limited to metal binding domains, drug binding domains, GPCR receptors, protein switches, and small molecule binding domains.

Thus, in one embodiment, the disclosure provides fusion proteins comprising the polypeptide of any embodiment herein fused to one or more functional polypeptides. Any suitable functional polypeptide may be used, including but not limited to a therapeutic polypeptide, diagnostic polypeptide, targeting polypeptide, scaffold polypeptide, or polypeptide that confers stability on the fusion protein. In one embodiment, the one or more functional polypeptides are fused to the N-terminus and/or C-terminus of the protein. In another embodiment, the one or more functional polypeptides include ones inserted internally into the polypeptide of any one of SEQ ID NO:1-1615. In a further embodiment, the fusion protein comprises the secondary structure arrangement H1-L1-H2-L2-E1-L3-E2-L4-H3-L5-E3-L6-E4-L7-E5-L8-E6, wherein “H” is a helical domain, “L” is a loop domain, and “E” is a beta strand domain, and wherein one or more functional polypeptide is inserted into a loop domain.

In another aspect the disclosure provides nucleic acids encoding the polypeptide or fusion protein of any embodiment or combination of embodiments of the disclosure. The nucleic acid sequence may comprise single stranded or double stranded RNA (such as an mRNA) or DNA in genomic or cDNA form, or DNA-RNA hybrids, each of which may include chemically or biochemically modified, non-natural, or derivatized nucleotide bases. Such nucleic acid sequences may comprise additional sequences useful for promoting expression and/or purification of the encoded polypeptide, including but not limited to polyA sequences, modified Kozak sequences, and sequences encoding epitope tags, export signals, and secretory signals, nuclear localization signals, and plasma membrane localization signals. It will be apparent to those of skill in the art, based on the teachings herein, what nucleic acid sequences will encode the polypeptides of the disclosure.

In a further aspect, the disclosure provides expression vectors comprising the nucleic acid of any aspect of the disclosure operatively linked to a suitable control sequence. “Expression vector” includes vectors that operatively link a nucleic acid coding region or gene to any control sequences capable of effecting expression of the gene product. “Control sequences” operably linked to the nucleic acid sequences of the disclosure are nucleic acid sequences capable of effecting the expression of the nucleic acid molecules. The control sequences need not be contiguous with the nucleic acid sequences, so long as they function to direct the expression thereof. Thus, for example, intervening untranslated yet transcribed sequences can be present between a promoter sequence and the nucleic acid sequences and the promoter sequence can still be considered “operably linked” to the coding sequence. Other such control sequences include, but are not limited to, polyadenylation signals, termination signals, and ribosome binding sites. Such expression vectors can be of any type, including but not limited plasmid and viral-based expression vectors. The control sequence used to drive expression of the disclosed nucleic acid sequences in a mammalian system may be constitutive (driven by any of a variety of promoters, including but not limited to, CMV, SV40, RSV, actin, EF) or inducible (driven by any of a number of inducible promoters including, but not limited to, tetracycline, ecdysone, steroid-responsive). The expression vector must be replicable in the host organisms either as an episome or by integration into host chromosomal DNA. In various embodiments, the expression vector may comprise a plasmid, viral-based vector, or any other suitable expression vector.

In another aspect, the disclosure provides host cells that comprise the nucleic acids, expression vectors (i.e., episomal or chromosomally integrated), non-naturally occurring polypeptides, or fusion proteins disclosed herein, wherein the host cells can be either prokaryotic or eukaryotic. The cells can be transiently or stably engineered to incorporate the nucleic acids or expression vector of the disclosure, using techniques including but not limited to bacterial transformations, calcium phosphate co-precipitation, electroporation, or liposome mediated-, DEAE dextran mediated-, polycationic mediated-, or viral mediated transfection.

In another embodiment, the disclosure provides libraries comprising 5, 10, 35, 50, 100, 250, 500, 750, 1000, or more different polypeptides, fusion proteins, nucleic acids, expression vectors, and/or host cells according to any embodiment or combination of embodiments herein. Such libraries can be used, for example, to identify specific protein and small molecule binders.

The disclosure further comprises methods for use of the polypeptide, fusion protein, nucleic acid, expression vector, host, and/or library of embodiment herein for any suitable use as disclosed herein, including but not limited to identifying or designing enzymes or small molecule binders.

In another aspect, the disclosure provides methods for de novo enzyme design, comprising methods according to any steps or combination of steps as described herein.

EXAMPLES Summary

De novo enzyme design has sought to introduce active sites and substrate binding pockets predicted to catalyze a reaction of interest into geometrically compatible native scaffolds, but has been limited by a lack of suitable protein structures and the complexity of native protein sequence-structure relationships. Here we describe a deep-learning based “family-wide hallucination” approach that generates large numbers of idealized protein structures containing diverse pocket shapes and designed sequences that encode them. The design of highly active and specific biocatalysts from scratch with broad applications in biomedicine is an important milestone for computational enzyme design, and our approach should enable the design of a wide range of new and useful luciferases and other enzymes.

Study

Bioluminescent light produced by the enzymatic oxidation of a luciferin substrate is widely used for bioassays and imaging in biomedical research. Because no excitation light source is needed, luminescent photons are produced in the dark which results in higher sensitivity than fluorescence imaging in live animal models and in biological samples where autofluorescence or phototoxicity is a concern^(4,5). However, the development of luciferases as molecular probes has lagged behind that of well-developed fluorescent protein toolkits for a number of reasons: (i) very few native luciferases have been identified; (ii) many of those that have been identified require multiple disulfide bonds to stabilize the structure and are therefore prone to misfolding in mammalian cells; (iii) most native luciferases do not recognize synthetic luciferins with more desirable photophysical properties; and (iv) multiplexed imaging to follow multiple processes in parallel using mutually orthogonal luciferase-luciferin pairs has been limited by the low substrate specificity of native luciferases.

We sought to use de novo protein design to create new luciferases that are small, highly stable, well-expressed in cells, specific for one substrate, and need no cofactors to function. As we are not constrained to natural luciferase substrates, we chose a synthetic luciferin, Diphenylterazine (DTZ) as the target substrate duo to its good quantum yield, red-shifted emission³, favorable in vivo pharmacokinetics^(14,15), and lack of required cofactors for emission. Previous computational enzyme design studies have primarily repurposed native protein scaffolds in the PDB, but there are few native structures with binding pockets appropriate for DTZ, and the effects of sequence changes on native proteins can be unpredictable. To circumvent these limitations, we set out to generate large numbers of ideal protein scaffolds with pockets of the appropriate size and shape for DTZ, and with clear sequence-structure relationships to facilitate subsequent active site incorporation. To identify protein folds capable of hosting such pockets, we first docked DTZ into 4000 native small molecule binding proteins. We found that many NTF2 (nuclear transport factor 2)-like folds have binding pockets with appropriate shape-complementary and size for DTZ placement (FIG. 1 e ), and hence selected the NTF2-like superfamily as the target topology.

Family-Wide Hallucination

Native NTF2 structures have a range of pocket sizes and shapes but also contain non-ideal features such as long loops which compromise stability. To create large numbers of ideal NTF2-like structures, we developed a deep-learning based “family-wide hallucination” approach that integrates unconstrained de novo design^(19,20) and fixed backbone sequence design approaches²¹ to enable the generation of an essentially unlimited number of proteins having a desired fold (FIG. 1 a ). The family-wide hallucination approach utilizes the de novo sequence and structure discovery capability of unconstrained protein hallucination^(19,20) for loop and variable regions, and structure-guided sequence optimization for core regions. We employed the trRosetta™ structure prediction neural network²², which is effective in identifying experimentally successful de novo designed proteins and hallucinating new globular proteins of diverse topologies. Starting from sequences and predicted structures of 2,000 naturally occurring NTF2s, we used trRosetta™ to optimize the amino sequence of conserved core and variable loop regions. Protein core idealization was carried out with a topology-specific loss function over core residue pair geometries (see Methods) and variable loop optimization, by optimizing sequence length and identity to maximize the confidence of the neural network in the predicted structure. To further encode structural specificity, we incorporated buried, long-range hydrogen-bonding networks. The resulting 1615 family-wide hallucinated NTF2 scaffolds (SEQ ID NO:1-1615) provided more shape complementary binding pockets for DTZ than native small-molecule protein binding proteins (FIG. 1 e ). This approach samples protein backbones closer to native NTF2-like proteins (FIG. 1 f ) and with better scaffold quality metrics than a previous non deep-learning approach²³ (FIG. 1 g ).

De Novo Design of Luciferases for DTZ

Standard computational enzyme design generally starts from an ideal active site or theozyme consisting of protein functional groups surrounding the reaction transition state that is then extrapolated into a set of existing scaffolds^(1,2). However, the detailed mechanism of native marine luciferases is not well defined as only a handful of apo-structures and no holo-structures have been solved^(24,25) (excluding calcium-regulated photoproteins). Both quantum chemistry calculations^(26,27) and experimental data^(28,29) suggest that the chemiluminescent reaction proceeds through an anionic species and that the polarity of the surroundings can substantially alter the free energy of the subsequent single electron transfer (SET) process with triplet molecular oxygen (³O₂). Guided by these data, we sought to design a shape complementary catalytic site that stabilizes the anionic state of DTZ and lowers the SET energy barrier, assuming that the downstream dioxetane light emitter thermolysis steps are spontaneous. To stabilize the anionic species of DTZ, we focused on the placement of the positively charged guanidinium group of an arginine residue to interact with the anionic imidazopyrazinone core.

To computationally design such active sites into large numbers of hallucinated NTF2 scaffolds, we first used AIMNet³⁰ to generate an ensemble of anionic DTZ conformers (FIG. 1 b ). Next, around each conformer, we used the RIFgen method^(31,32) to enumerate Rotamer Interaction Fields (RIFs) on 3D grids consisting of millions of placements of amino acid sidechains making hydrogen bonding and nonpolar interactions with DTZ (FIG. 1 c ). Additionally, we included an arginine guanidinium group near the deprotonation site at the nitrogen of imidazopyrazinone (N1 atom) in the RIF. RIFdock was then used to dock each DTZ conformer and associated RIF in the central cavity of each scaffold to maximize protein-DTZ interactions. An average of eight sidechain rotamers including an arginine to stabilize the anionic imidazopyrazinone core were positioned in each pocket (FIG. 1 d ). For the top 50,000 docks with the most favorable sidechain-DTZ interactions, we optimized the remainder of the sequence using RosettaDesign™ (FIG. 1 d ) for high-affinity binding to DTZ with a bias towards the naturally observed sequence variation to ensure foldability. During the design process, pre-defined hydrogen bond networks (HBNets) in the scaffolds were kept intact for structural specificity and stability, and interactions of these HBNet side chains with DTZ were explicitly required in the RIFdock step to ensure preorganization of residues essential for catalysis. In the first sequence design phase, the identities of all RIF and HBNet residues were kept fixed, and the surrounding residues were optimized to hold the sidechain-DTZ interactions in place and maintain structural specificity. In the second sequence design step, the RIF residue identities (except the arginine) were also allowed to vary, to identify apolar and aromatic packing interactions missed in the RIF due to binning effects. During sequence design, the scaffold backbone, sidechains, and DTZ substrate were allowed to relax in Cartesian space. Following sequence optimization, the designs were filtered based on ligand-binding energy, protein-ligand hydrogen bonds, shape complementarity, and contact molecular surface.

Conclusion

Computational enzyme design to date has been constrained by the number of available scaffolds, which limits the extent to which catalytic configurations and enzyme-substrate shape complementarity can be achieved¹⁶⁻¹⁸. The use of deep-learning to generate large numbers of de novo designed scaffolds here eliminates this restriction; moving forward, the more accurate RoseTTAfold^(TM39) and AlphaFold2^(TM33) should enable still more effective protein scaffold generation by leveraging family-wide hallucination abilities. The diversity of scaffold pocket shapes and sizes enabled the exploration of a range of catalytic geometries and the maximization of substrate-enzyme shape complementarity. The family-wide hallucination method opens up an almost unlimited number of new scaffold possibilities for substrate binding and catalytic residue placement, which is particularly important in cases where the reaction mechanism, and how to promote it, are not completely understood: many structural and catalytic hypotheses can be readily enumerated with different catalytic residue placements in shape and chemically complementary binding pockets. While luciferases are unique in catalyzing the emission of light, the chemical transformation of substrates into products is common to all enzymes, and the approach developed here extends to a wide variety of chemical reactions.

Methods 1. Materials and General Methods

Synthetic genes and oligonucleotides were purchased from Integrated DNA Technologies or GenScript. The synthetic gene was inserted between NdeI and XhoI sites of a pET29b+ vector, containing an N-terminal hexahistidine tag followed by a TEV protease cleavage site and a C-terminal stop codon. Restriction endonucleases, Q5 PCR polymerase, and T4 ligase were purchased from NEB. Plasmid DNA, PCR products, or digested fragments were purified by Qiagen DNA purification kits. DNA sequences were analyzed by Genewiz. All other chemicals were purchased from Sigma-Aldrich or Fisher Scientific and used without further purification. To identify the molecular mass of each protein, intact mass spectra were obtained via reverse-phase LC/MS on an Agilent 6230B TOF on an AdvanceBio RP-Desalting column and subsequently deconvoluted by Bioconfirm software using a total entropy algorithm. ÄKTA pure M with UNICORN 6.3.2 Workstation control (GE Healthcare) coupled with a Superdex™ 75 Increase 10/300 GL column was used for size exclusion chromatography. DNA and protein concentrations were determined by a NanoDrop™ small-volume 8 channel UV/vis spectrometer. CD spectra and CD melting experiments were performed by the default setting on a J-1500 Circular Dichroism Spectropolarimeter (Jasco). SDS PAGE and luminescence images were captured by a Bio-Rad ChemiDoc™ XRS+. Images were analyzed using the Fiji image analysis software.

2. General Procedures for Protein Production and Purification

Lemo21(DE3) strain was used for transformation with the pET29b+ plasmid encoding the gene of interest. Transformed cells were grown for 12 h in TB medium supplemented with kanamycin. Cells were inoculated at 1:50 ratio in 100 mL fresh TB medium, grown at 37° C. for 4 h, and then induced by IPTG for an additional 18 h at 16° C. Cells were harvested by centrifugation at 4,000 g for 10 min and resuspended in 30 mL lysis buffer (20 mM Tris-HCl pH 8.0, 300 mM NaCl, 30 mM imidazole, and Pierce™ Protease Inhibitor Tablets). Cell resuspensions were lysed by sonication for 5 min (10 s per cycle). Lysates were clarified by centrifugation at 24,000 g at 12° C. for 40 min and pre-equilibrated with 1 mL of Ni-NTA nickel agarose at 4° C. for 1 h. The resin was washed twice with 10 mL wash buffer and then eluted in 1 mL elution buffer (20 mM Tris-HCl pH 8.0, 300 mM NaCl, 300 mM imidazole). The eluted proteins were purified by size exclusion chromatography in PBS. Fractions were collected based on A280 trace, snap-frozen in liquid nitrogen, and stored at -80° C.,

3. Computational Design of Idealized Scaffolds

Our generation of idealized NTF2-scaffolds can be divided into four parts: (3.1) Generation of seed-structures, (3.2) optimization of backbone geometries using trRosetta™-based hallucination, (3.3) generation of structure-conditioned sequence models to bias design, (3.4) design and filtering.

3.1 Generation of Seed Structures

We thought to increase the set of NTF2 structures by complementing experimentally resolved structures from the PDB with highly accurate models generated by trRosetta^(TM22). To achieve this, we first collected 85 NTF2-like protein structures from the PDB based on SCOPe annotation (d. 17.4 SCOPe v2.05). Corresponding sequences were then used as queries to collect sequence homologs from UniProt™ by performing 8 iterations of hhblits at 1e-20 e-value cutoff against uniclust30_2018_08 database; default filtering cutoffs were relieved (-maxfilt 100000000 -neffmax 20 -nodiff -realign _max 10000000) to maximize the number of the output hits. All the hits were redundancy reduced using cd-hit⁴⁶ with a sequence identity cutoff of 60% yielding a set of 7,573 candidates for modeling.

To generate inputs for structure modeling with trRosetta™, we built multiple sequence alignments (MSAs) for each of the 7,573 selected sequences with hhblits using a more conservative e-value cutoff of 1e-50; the resulting MSAs were also complemented by hits from hmmsearch against uniref100 (release-2019_11) with the bit-score threshold of 115 (i.e. ~1bit per position). After joining the above two sets of alignments and filtering them at 90% sequence identity and 75% coverage cutoffs, only sequences with more than 50 homologs in the corresponding MSAs were retained for modeling (2,005 sequences). The filtered MSAs along with information on the top 25 putative structural homologs as identified by hhsearch against the PDB100 database of templates were used as inputs to the template-aware version of trRosetta^(™47) to predict residue pair distances and orientations. Network predictions were then used to reconstruct full atom 3D structure models using a Rosetta™-based folding protocol described previously²².

3.2 Hallucination of Idealized NTF2s

Seeking to idealize the native structure seeds, we reasoned that trRosetta™, a convolutional residual neural network, which predicts residue-residue orientations and distances from sequence, could serve as a key component in a protein idealizer. Previously, this network has been used to generate diverse proteins that resemble the “ideal” structures of de novo designed proteins by changing the protein sequence to optimize the contrast (KL-divergence) between the predicted geometry and that of randomly generated sequences¹⁹.

For our purpose, the desired fold-space is not diverse but instead focused on the NTF2-like topology. To guarantee generation of ideal structures within this fold-space, we implemented a new fold-specific loss-function, which biased hallucinations based on observed geometries in native crystal structures. As many experimentally characterized NTF2s contain non-ideal regions, we began by creating a set (χ) of trimmed but ideal NTF2s by manually removing non-ideal structural elements such as kinked helices, and long or rarely observed loops. For each seed structure, we then used a structure-based sequence alignment method (see 3.3) to find equivalent positions between the seed structure and χ. Residue pairs were considered to be in a conserved tertiary motif (TERM) if there were 5 or more equivalent positions in χ. The smooth probability distributions based on observed geometries in χ were then computed. For distances we used a Gaussian distribution with mean equal to the true distance denoted by D and standard deviation denoted by σ equal to 0.5 Å. The probability density function for distances d is given by:

$f\left( {d;\mspace{6mu}\mspace{6mu} D,\sigma} \right) = \frac{1}{\sqrt{2\pi\sigma^{2}}\exp\left( {- \frac{\left( {d - D} \right)^{2}}{2\sigma^{2}}} \right)}$

Using this density function one can construct a categorical distribution for binned distances by evaluating this function at the centers of the bins and then normalizing by a sum of all values in different bins. Similarly, a von Mises distribution was used for omega angle smoothing with probability density function given by ƒ(ω; Ω, κ) = N(κ) exp[κ cos(ω - Ω)] where N(κ) is a normalizing constant, Ω is the crystal value, κ is the inverse variance chosen to be 100, and ω is the smoothed angle. For phi and theta angles a von Mises-Fisher blur is given by ƒ(x; µ, κ) = N(κ) exp[κ µ^(T)x]where N(κ) is a normalizing constant, µ is a unit vector on a 3D sphere corresponding to the phi and theta angles from the crystal structure, x is a smoothed unit vector, and κ is the inverse variance chosen to be 100.

Next, we converted those probability distributions to energy landscapes (ie - negative log likelihoods) and sought to minimize the expected energy. This soft restraint encouraged the network to seek out the consensus structure, while still allowing deviations where needed. Specifically, we formulated the fold-specific loss as:

$\begin{matrix} {L_{fold} = {\sum\limits_{x \in {\{{d,\text{ω,θ,ϕ}}\}}}{\left\lbrack {\sum\limits_{i,j = 1}^{L}{{\sum\limits_{k = 1}^{N_{x}}{- \mspace{6mu} m_{ij}p_{\mspace{6mu} x,ijk}}}ln\left( s_{\mspace{6mu} x,ijk} \right)}} \right\rbrack/{\sum\limits_{i,j = 1}^{L}m_{ij}}}}} \\ {m_{ij} = \left\{ {1\mspace{6mu} if\mspace{6mu} i\mspace{6mu} and\mspace{6mu} j\mspace{6mu} are\mspace{6mu} in\mspace{6mu} a\mspace{6mu} TERM;\mspace{6mu} else\mspace{6mu} 0} \right)} \end{matrix}$

where p is the network prediction and s is the smoothed probability distribution of the conserved residue pairs. For the second part of the loss function and similar to previous work¹⁹, we sought to maximize the Kullback-Leibler (KL) divergence between the predicted probability distribution and a background distribution for all i,j residue pairs not in a TERM.

$\begin{array}{l} {L_{hall} =} \\ {- {\sum\limits_{x \in {\{{d,\text{ω,θ,ϕ}}\}}}{\left\lbrack {\sum\limits_{i,j = 1}^{L}{{\sum\limits_{k = 1}^{N_{x}}{\left( {1 - \mspace{6mu} m_{ij}} \right)p_{\mspace{6mu} x,ijk}}}ln\left( {p_{x,ijk}/b_{x,ijk}} \right)}} \right\rbrack/{\sum\limits_{i,j = 1}^{L}\left( {1 - m_{ij}} \right)}}}} \end{array}$

where b is the background distribution and N_(x) is the number of bins in each probability distribution (N_(d) = 37, N_(ω,θ), = 25, N_(φ) = 13). Briefly, b is calculated by a network of similar architecture to trRosetta™ trained on the same training data, except it is never given sequence information as an input. The final loss is given by:

L = L_(fold) + L_(hall)

We used a Markov Chain Monte Carlo (MCMC) procedure to search for sequences that trRosetta™ predicted to fold into structures that minimize this loss function. We allowed four types of moves with different sampling probabilities: mutations (p=0.55), insertions (p=0.15), deletions (p=0.15), and moving segments (p=0.15). Mutations randomly changed one amino acid to another, with an equal transition probability for all 20 amino acids. Insertions inserted a new amino acid (all equally likely) into a random location subject to the KL-divergence loss. Deletions deleted a random residue from the same locations. Finally, we also allowed “segments” to move, cutting and pasting themselves from one part of the sequence to another, while maintaining the same overall segment order. Here, a “segment” is a continuous stretch of amino acids all subject to fold specific loss, often composed of a single strand or helix. Starting from a random sequence of an initial length (typically 120 amino acids), we used the standard Metropolis criteria to accept or reject moves:

A_(i) = min[1, exp(−(L_(i) − L_(i − 1))/T)]

where A_(i) is the chance of accepting the move at step i, L_(i) is the loss at the current step, L_(i-1) is the loss at the previous step and T is the temperature. The temperature started at 0.2 and was reduced by half every 5 k steps. Generally, it took 30 k steps to converge.

3.3 Structure-Conditioned Multiple Sequence Alignment

Given the complexity of the NTF2-like protein fold, we hypothesized that it was necessary to impose sequence design rules to disfavor alternative states (negative design). Towards this end, we computed a structure-conditioned multiple sequence alignment based on native NTF2-like proteins. Specifically, we used TMalign⁴⁸ to superimpose each of the 2005 predicted native structures (from 3.1) onto each hallucinated backbone (from 3.2). Next, to find structurally corresponding positions, we implemented a structure-based dynamic programming algorithm, similar to the Needleman-Wunsch algorithm⁴⁹. However, instead of using the amino acid similarity as the scoring metric, we used a tunable structure-based score function. After aligning the two structures, we scored the structural similarity of any two residues by empirically weighting several metrics: (1) Distance between Ca atoms, (2) differences between backbone torsion angles (phi and psi) backbone torsion angles and (3) the angle (degrees) between the vectors pointing from Cα to Cβ in each residue. To calculate the unweighted score for each component, we normalized each by a maximum possible value (180 degrees for angles and 10 Å for distances) and included a “set point” that approximately delineated when we judged a metric to indicate two residues to be more similar than not. Values above this setpoint are positive, indicating two residues are similar and values below the set point indicated two residues are dissimilar.

Score_(unweighted) = (set_point − value)/max_value

Each value was scaled by its normalized weight and summed to give an overall similarity score between any two amino acids.

These similarity scores were used as the similarity metric in our dynamic programming algorithm, in place of the typical BLOSUM62 similarity metric. We used a gap penalty of 0.1 and an extension penalty of 0.0. Finally, after concatenating all the structure-conditioned aligned sequences, we used PSI-BLAST-exB^(50,51) to compute sequence redundancy weighted log-odds scores for each amino acid at each position (position-specific scoring matrices, PSSMs).

3.4 Design

To design the resulting backbones, we sought, in addition to the sequence patterns captured in the PSSM (3.3), to further specify the backbone conformation and functionalize the pocket, by installing entire hydrogen bonding networks from native NTF2-like proteins. We compiled two sets of hydrogen bonding networks: a set for the cavity containing 85 networks and another set of networks connecting the C-terminal region of the first helix with the third beta-strand containing 25 networks. In 20 independent attempts for each backbone, we randomly grafted a network from each set, fixed the identities of hydrogen bonding residues, and designed the sequences for all other positions under PSSM constraints. The resulting models were filtered for various backbone quality metrics and for maintenance of hydrogen bonding networks in the absence of constraints, resulting in a total of 1615 idealized scaffolds.

4 RIFdock Tuning Files

The hierarchical search framework of RifDock is a powerful way to search through 6-dimensional rigid body orientations. While originally designed to work with physics-based forcefields, the scoring machinery can easily be modified to do other things. A system was added called “Tuning Files” that allows one to tune the energetics of rifdock by “requiring” specific interactions. Specified interactions can range from specific hydrogen bonds, to specific bidentates, and even to specific hydrophobic interactions. The specifics are that during the RifGen stage, each stored rotamer is compared against a list of definitions in the Tuning File. If the rotamer satisfies a definition, it is stored into the RIF with a “Requirement Number”. Later during RifDock, these Requirement Numbers are available during scoring and the presence or absence of certain rotameric interactions may be used to penalize or even completely discard dock solutions. In this work, the Tuning Files were used to require the specific hydrogen bond interactions between the arginine and the secondary amine in the pyrazine ring of the colenterazine-like substrate.

5 Designing Theozyme Architectures Into De Novo NTF2 Scaffolds

De novo design of luciferases can be divided into three main steps - scaffold construction, substrate placement with required interactions, and sequence design. With the idealized NTF2-like scaffolds in hand, we selected 5 diverse rotamers from AIMNet and used the Rotamer Interaction Field (RIF) docking method³¹ to exhaustively search a large space of interacting side chains to the anionic form of DTZ. Chemically, deprotonation of N1 hydrogen is the first step to forming an anionic species. We first generated RIF using RifGen³¹ to guide placement in the protein scaffolds. We required the placement of a positively charged Arginine sidechain by a tuning file (see below) to stabilize the formation of negative charge N1 atom where the deprotonation occurs initially and enumerated large numbers of possible sidechain interactions with the rest of DTZ.

HBOND_DEFINITION N1 1 ARG END_HBOND_DEFINITION REQUIREMENT DEFINITION 1 HBOND N1 1 END_REQUIREMENT_DEFINITION

Rifdock was then used to hierarchically search for the best combination of RIF to place on the input backbone. Although the negative charge can move to another electronegative atom O1 via resonance of the imidazopyrazinone core, it is unclear which anionic species is more critical for the luciferase-catalyzed luminescence emission. Thus, we let RIFdock place the polar rotamers on the basis of hydrogen-bond geometry to O1 and apolar rotamers to DTZ without specific requirements. In the next docking step, we parsed the -scaffold_res argument with a list of residue numbers as scaffold backbone positions that were annotated as pocket residues to allow a hierarchical search of RIF placement. We only allowed the RIF placements in the pocket residues and left pre-defined hydrogen bond networks (HBNets) intact. After RIFdock, we continued for Rosetta™ sequence design where the score function was reweighted for higher buried_unsat_penalty⁵² and the amino acid selection was biased by giving a pre-generated PSSM file via SeqprofConsensus task operation. This would minimize buried unsatisfied residues and increase pre-organized architectures in the core that are known to be beneficial for a catalytic pocket⁵³. Two rounds of FastDesign calculation were included: we restricted the RIF rotamers and core HBNets to repacking in the first round while we allowed other residues for re-design based on PSSM during the Monte Carlo simulated annealing procedure. After the surrounding residues were optimized to retain the RIF interactions, we allowed the re-design of RIF rotamers, to find efficient aromatic and hydrophobic packing around DTZ while catalytic residues (the N1 requirement) were still limited to only repacking. The final set of designs was obtained after filtering by ligand-binding interface energy, shape complementarity, contact molecular surface, number of HbondsToResidue, and the presence of N1_hbond

TABLE 1 SEQ ID NO: SEQUENCE 1 PSEEEIKEFLRRFYEAINRGDADAVKELLTPGWTYHHASGQTFTDQEEFREWVEKMFKAGTRLQIDEIRIDGKTVTVHVTMHQTRGNQDHTIRTTDHHRFHDDGKLVETRAHYNHE 2 ASEEEIRELIRRFYEAFNKGDMEKLKEILAPGAQLHISNGQTFNDLEEITKFFQTMLSQGTKIEIKSIEVRGDTVTVHVTFHTTHGNQDHTVDVTDHYHFDKDGKIRRLQSHFNPR 3 PSEEEIRRMVRRFFEAFNRNDADALARLFHPGAQMHVSNGQTFNDREEIKEWFERLLSQDVQIEIHSIEVRGNTVTVHWTGHMNQGNQTKTVTATTHFHLVKDGKIVEMRIHINQQ 4 MSEEEIKEILHALYEAFNRGDMDAFAEYFAPGAQMHISNGQTFNDREEIKEFFAQLFKQGVQIEIKEIRIDGDTATVHVEVHRTHGNQDHTYTVTHHWVFRKDGKVVELRQHVNPQ 5 DFKEEVKRVLKEFYEALDKKDIDTAASFFTDDSTMHVQEGTTFKNKEEIKKWFKEFLDTFPRMHREIKSIHITGDKVTIHVTIHVTHGDRDYTYHITEHHRLDKDGRIKETHIHTNQQN 6 DFQEQVKEWIKRFVEALDKGDVEKVVSLFTDDWTFHLYQGQTFTNPEEFKEWVERFLRTFKRMHREIKEIRVEGDRATVHVTVHLTQGDRDYTVHVTEHHKFDKDGRITHTQMHENEQK 7 PDEEAIREWLRQFFRALDEGDMDKAMSLLSDDVTVHFYEGYTATTKDEIKEWFARWYSKFPQMHRQIDSIEITGKTVHVHWTIHLHQGDQTYTYRATTTFHFDHDGRIKEIRITIREEK 8 PISEEEIKDWVRRFIEAFNKRDADALKSLYSDDSTIHFGDGRTFTNPEEFAKWVKEYLRHSDTRLEIKSIEIHGNTVTVHVQMHTTHPSGQTYTYRVTRHITFDHDGKIKEDHIQTDQLH 9 SLSEEQIKELLKRFYEAFNRNDADALAELLHPDATMHLSDGSTFHNVEEILKWFREFMKKSDVQIDVKEIEIRGDTVTVHYTMTVNHPSGQTHTVDGRDHFTFDHNGKIVEVRSHYQPQS 10 PSAEEIIRELKKRLVEAMNKGDMDKLRELVHDDAQFHFNGQTFHDKEEFLEWFAQTSPVKIQIDELHIQQNDDGTYTVTVHVTMHNDDEGKTVRVTAHDRYDMRHNKLVETRFHTDQG 11 PSDEEIVRELVRRFYEALNNGDADTAKSLLHDDWRLHVDGRTFNSPDEWIEWVKRVPQLHHEIKSLEVRVNHDGTVTVTVHVTVHDSSKNTTHRFTDHHHVDSRHNKIVRTQVHTDNG 12 PSDEEVARELVRRFIEAWNKKDLDTMFSLLHPDWQYTQNGRTFHSRDEFKEWVRTHPDLKVEVDSIEVRTNPDGTVTVHVEVTARDDTTNQDIKFHEEHHVDSRHNKIVETRQHEDQG 13 PSDEEIVRELIRRLYEAINRGDMKEIFDLLHPDWQFTNNGTTAHSREEFIERLKKRDQFHVHVDDLHVQINHDGTVTVEVHVTVTDSKTNRHFKVRDEHHFDSRHNKLVETRVHTDPG 14 PSDEEIIKELVRQFYEAVNNNDMDTLRELLHPDATFTFNGRTFHDVDEFLKWVQDIPQTHHEIKSIEVRVHDDGTITVTVHVTTTDESTKTTVTVHDHYTVDKRHWKIVRVQSHEDKG 15 PSDEEIARELVKRFYEAFDKKNMDELHEMLHPDWQYTQDGNTWHSREEFLKWASNVPQLRHEIKELHVQTNPDGTITVTVHVEVHDSSTNRTVNVTDHHRIDKRTNKIVETRSHTDNT 16 PMSKEEVKEVLRRFFEAINKNDRDTMKELLDDDWEFHSSSGRTFHGADEFLEWITQWASTAQIEIKSIEIEIRGDTIHVTVHVTVHETHGNQTHTVDVTEHHRLDARNNKIVETRVHFNQR 17 VSDEQQERAKQAIERFIEAMNKDPEEVYKLLAPGWRYTDSSTGRTFDKDEFKEMVEKLFKQNFHFQIESIRVELNPDGTITAHVTVQVTNDSTGSTVTVHETHHLDSRTGQIVETRVTPTG 18 PSDEQQIRDWLKKFYEAWNNNDLDALVELLTPDWTYHHSSGQTYTTLDEFREWVERMLSQDTQINMEEMRIEFDGDTATVTVHYTATNGSTKTTYKATETHHFERDKDGWKIVETRVHHHQT 19 PSDEEAIRELARRFYEAFNTKDADALVEMYDPNWTYHHSSGRTFTTLDEFKEWVERFLSSDVRLEIKSMEVEVRGDEATVTVEVDVTQRQTGRTFHAHDTHHFRRTKDGWKLIETRTHTHQA 20 PSDEEAIRELKRRFIEAFNNKDADALARLFHPDAQMHTSNGQTFNTKDEIKKFLEDLLKQDIRIELKSVEIEVRGDTIHVTFHVTVTNSSTGRTWDGTQHDEYRKEPGGWKLVRTEERLNQK 21 PSDEQIIRDWVRRWVELLNRGDADAVASLYAPDATVHHHDGRTLTSREEIKEWVEEMFSRQVEVHLDSLEIEFRGDKATVHAHLTFTEQRTKRTFKGTATFHFQRTKDGWQLKEQHVHIHQT 22 PSDEEQIRELVKRLYDALNNGDWEAFASLFHPDAQFHHASGRTLHTLEEIKEWAKQFLSNNIRIEIKEIRIEINGNTITVTVHVTVTNAKTKETFEVTETHHFRKDEGGWYLVRTEVHIRKL 23 PEVEEAVRELKKRFVEAFNKGDLEALERMFHDDATMHVSNGQEYHSKEEIKEWIKRFLSNDARVEVSIEVQIVNGDEATATSHFHVTYRNGQTYTGTAHDFYRRKDGTWKIIRVELQWHQN 24 HEIEERIREIIKRLIEAIDRGDLDALEEIYDDDAQMHISDGITFNNKEEIKEWLKRYSSFRTAHEVHVEVHIRNDSHVTVHVTVHYTHENGQHFTVHRTFHFQFENGQVKLKEDRIQRDRQ 25 MSEQEIREAIREWLRRYYEAFDNGDWEKLSRLMAPDIRMEYNGRTFTNLEEILRFLREFWEKFNTAHEVHIEIHIDDKDTTTVTVEVHVTLHHNGKTFSTTAQHHWHVEFHGRQLRFKEVRTQTHESPQ 26 MSEEEIREAIKETLRRFYEALDNNDLDTLRSILHPDWQMHYNGEQFTNREEFAEWVDKFWKNWDSRHDVEIHIDMSDDSTTTATVHVHVTFHHNGQQFHVTVDDTHHFRMEGNELKMIETRSQTRENKD 27 ASEEEIRQIIKRLARALDEGDWDTLAKLYSDDSRIEENQDNGTTIEFTTREEFIRWVREFKKNAEVHREVHIHVDKSTNTATAHMKVHVTHGNKSITMDVTSHFHFTDGKLKEEQVHIRAQE 28 MSKEEIKRILKQFFEAMDKGDADKLKKLLHPGATFHLANGQTFTDVDEFVKWVEDFFNNVQLHREVHIHIHPNGRTVHVEWTLHLRHGDTKYTIHGRTTFHFKDGKIAEVRFHWDTQET 29 PDEEKIRQIVEALVEAINHGDLDALESFYTDDSTMHFNEGETLTNREEIKRWFEEFIKKFNVRIEIKSVHVDGKTITVNVTVHLTHNGRTVTYHVQRHFRVEGDKLTDDHIHRNQTE 30 SSEEEIREILRRLFEAFDKGDLDELKELFHDGWTFHDPSGQTFTTKDEFKEWVKRLLESLSDIKRGDIEIRVQDDGTVTVHVTVHVTDSRTGRTVTIDYTEHHHFRNGKLTETHVHSHQKS 31 DDREEIKDIIRKFFEAFENGDADKLKELLAEDATFHLYQGITFKSLDEIREWAERLFSTAEFRFDSIEIHIHDDGTATVHWTMTVHHDNQTFHFNATTHFVFENGKIKEVRIHADNTD 32 DRREEIKDWLRRFYEAFEKGDWEKLARLMDDDATFHLYQGITFTDKEEFIRWFREFISNAEVRFDEIRFHINDDGTATVHYTVTVHHDNKTIHANATDHFVFSDGKVTEIRSHADNQE 33 DDREKIKEFIKEFFEAFQNGDADRLKELMAEDATFHFSNGTTFTNPEEFREFVERFFSRMDIKIDRIEIHINDDGTATAHVEITVTHDDRTHHVTVTVHDRYVDDKLKERRFHYDNKN 34 PFREEIKDWKRRFIEAFEKGDMDKLKELFAEDATVHFWNGETATTLDEIKEWFTRLWSTAEFRFEEVRIHIRDDGTVTVHMRVTVRHDNEDRTARYTVHDRYRDGKLTETQFHTDQDR 35 PDEEEIRDTVRRYYEAFEKGDAEALAELFHDDATFHVSEGITFTTKDEFKEYVSQLLRNAEYRFDSIEIHINDDGTVTAHYTVTVHHSDRTIHINATDHFHFSDKYIQELRSHFDRQE 36 DDRERIKEWLRRYFEAFEKGDADALKSLFTDDWTFHHSSGRTFTSRDEFKEWFKEIMKNAEYRIDEIRIHINDDGTVTVHVKITVTHDNKTVTMDVTEHHRFTNDRIVETRVHIDNKQ 37 PWEERIKELLKRFYEALQNGDADALAELMSDDVQFHHSSGTTFDSKEQFREWVERLFSSADFKIDSIEIRFNDDGTVTVHVTVTVHHDNKTIHINATHHWVFRDGKVTRVEARLDNTE 38 PSEEQLRELLKRFYTAINNGDLDALKELLHDGWQFHSSSGRTFHTKEEFAEWVERMLSNNTRLQIDSMNADQTEPRATVHVTFHTNEGNQTKTVHVTEHHRFKDGKIVETRQHHHTG 39 PTEEEIKEWVKQYFEAMQNKDVDKLVSLYDPGVQVHFWSGQTFNDREELKEWYERWFSQFEDAQMEIHVEIRGDRVTVHIHVTNPSTKTTTTYTFHFQFSDGRITEVHIHRNDHE 40 QDEDEKRIKDFIRRFAEAVDKGDWETLRRLLHDDWRFHHSSNIQFDNPEEFVRWYIERFRKEFDEVHRQIDSIEIHGQTATVHMTAHFTRGNKTFTVHVTEHHHFRDGRLVETHVHYDEKET 41 PDENEEAIKELVRRFFEALDNNDRDTFKSLFHDDAEFHLSDNITFSNADEFVEFFFEKFAREFERVRHEIHSIEIRGNRVRVEWTAHFTRGHKDVTIHGTTTFQVRDGKITRVEIHFDSKDT 42 PKEDEEAIKEFKRQLVEAFNHKDMDTIKELLTPDIEVHVSDGITFTNLDEFVKWFADKFLKHSDFRMQITEIRIHGHKVTVHVEVHWSHNGSSRTVRVTVHDRYRNGKITSTEFHWHNEN 43 MSEEEIKETIKRLMEAFDKGDMDTVASLFHPDAQFHISEGITFDNLEEFVEWWFQKFARKITRAHREIKSIEIRGDTVTVRWTVTVTNKDTNTTRHIEGRTTFHFKDGKITEVHFHEKQD 44 MSEEQIKEWLKRFYEAMDNHDWEALKRLYAEDATFHVSEGITFSNRDEFIEWWFRKFASTIDKSQHDIDSIHIDGDTVTVHVTQHVHHKDTGETRTVKITQHFRFKDGKLKEDRIHHDQS 45 TSEEQIEELARRMYEAFDKGDWDALLKLVHPDATFHVSEGITFDNAEEFVKWWFEKWRRHVSDMKREIKSIEIRGDRVTVHVEVHVTHKDTGTTVTIRATHHWVFKDGKIVEVHMHYDQS 46 PSDEEQLKEFKKRFIEALNRGDWKAVAELMSEDFTYYDARTGQTYDYEQFVKMVREFLSKAKDLRIEIKEIRIHGDTVTVHVEFHATHNGETRTVDVTTHDHYKDGKLKETRFHHNHQ 47 PSDKEQIKEWLRRFYEAFDHGDVEAVAELFSEDAQFTDARRQQTYDYEEFKEMVERMLSQMKDVRHQIDSIHIHGHTVTVHVTVHFTHNGKKVTVDVTEHHEFRNGRIVRTQTHHHPR 48 TDESEIRELVKRYFEALNKGDLDTVVSLFTPDATIHIYNGETITSLEEFREWVRKFLEDAKDVRFEIKEIRVDGDTVTVHWTVHMTHGNRTYTYRATTHFVFVNGKIKEMRIHMEQQH 49 PEEEELRKQVEEWLRQFYEAINKGDLEKLKELIDPEQSTFHFNGQTYNFEQFIEIVEKLFRNDIKLEVKQIDIEINDNGTITVTVHVTTHHKDGKTSDSTDHYHFRVENGQLKLVSVESHRQPT 50 PEEDERKEQVKELVRRLVEAFNRGDMDALKELFTDDDWSFHQNGQQFDADEFIKMLKELFDNGVRIEVKSIEIRVHPNGEVTVTVHVEITFSDGSHLDATEHHHFRKENGQIKLIETRVTHQPK 51 ASKHEIEEIARRFYEAFDKGDLDKLSELLHPGVRIHFEEEQITFTDKEEFQEWYKEWKKRFQEAHREIKRIEINDGTVTVHVTVHVRHGDETYTYHVTHHWHLKDHKIVEVRIRVDQT 52 MSEEDIREWKKRFVEALDKGDWEKLHELLHPGARIHYEKYQITFTDREEFIRWYKRLYSQFEEVRREIKEIRVDGGRVTVHLQFHVRHGDETKTYRVTVHDEYRGKKLVSSRFRWDDT 53 MSEEEIRQIIKRFVEAFNNGDIDTAVDLLYTPDAEVHHSNGQTFHTRESIKKFLKELYKQGTHIEIKDLHVDGDTVTVHVQLHTHHDGQTRTVRVTSHFHFVNKRVTHEQQHYDSN 54 ASKEQIEEFLKTYYELFNRGDYEAAAEFIYTKDWRFHNNNGETLNTKESVKEWLRKLLSRGTQIQIDSLEVRGDTVTVHLTFTTHDDGETHHVRVTEHHTFQGNRIVRTQQHSDTG 55 PGEEAIREWIKRYVEAFNNNDLDALASLYAPGATVTFSARGETATDQEEIKKWYEEFLSQDIRVEVKSIHITDDTVTVHVTFQKRDSHQTKTVDVTVHFRFENTKLTEVRYHFNEQ 56 TDEEQIKDFIKKFYEAFNDWEKFREFIDDNVTFHFEQHQQTFTDKEEVVDYIRKWLESVKSFRLEIKSLEIRGDTVTTHVTIHVNHKDQTRTFHVTEHHTFKDGKLVETRQHVHQT 57 ASEEEIRRWIKRFYEAFDRGDADALKEMLAEGWQMHQTRNITFDTLDEFKEWVERFQRHTDAHREIKSIRVDGQTVEVHVTMHTRHGDQPKTISVTDTHHFNGRKITSTRAHFDGND 58 PSEEQLREWVKRFVEAFNNNDLDALRELFDDGVQVHFSKGITFHTREEFAEWVRELLEKTNMRIEIKSIRVDGQTVHVHWTAHWTHGDQPYTSHGTTTFHFGGQKLVEVRFNVDDEE 59 PEQEEKIRELIKRFAEAFQKGDMDALFELFHPDATYHDSNGQTFHSREEIKEWYERWFSQDWVVEIKEIRINHENNTVTVHMQYHLRRNNQTVNVTYHDRYRGDKLVERQTHRDEGG 60 TSEEEIREILRRFYEALDKGDLDALEELLTPDWQFHSSNSTLHNIEEFKEWVERWFKSVGEVRREIEEIRITGNHVTVHVTVHVTHNGKEVTVRVTDHHHFKDGKLVETRAHYDNHEK 61 SSEEQIREFLKRFYEAVDRGDMDKLRELLTPDIQVTFNTETLHNVEEVVDWFREMFERLSDVHREIKRIEVSDGEVTAHVQVHVNHNGKTVTMDVTDHYRFKDGKLVSMRSHTDNRES 62 PVSEEQLRDWVRRFFEALNKRDLDTLVSLFTPDWQFHHISGVTIHSLEELREWVERWLRTFSDFRIEIDSIEIHGDTIHVHVTIHFTDDRTGRTFTVRITETHHFDKGGKLKETHVHEDRQPK 63 ADREKIKELLKRFFEALDKGDFDTLKSLMHDDWTVHITHNGQTFTITTREEFEEYYRQLFESVKDVQRHIHSIEIHGDTVTVHFTVTQRHGDKTYHIDITEHHRFEGDKLVETHVHVDHKQ 64 PLSQEQIKEWLKRFYEALDRGDADAVAELVTDDWTMHINNGITITTKEEFKEWVERRLSQFSDIKRTLEEIRIDDRTVHVHLTVHTTHNGKKVTIHTTDTHHFTDNRLTETHFTEDQKDT 65 DWREEAEELLRRLYEALDKGDRDKIREILHPDVQYHDSNGITLHTLEEFIEYVTRLLSRFDFQRHIHEIRFSDDGTVTVHYTMHFTHGDQTYTATVTDHFHFTNGKITEVRSHVDQHE 66 DFREEIKDLIKKFYEAIDHRDRDKLREIVHPDATFHLSEGITFTNREEFEEWVEQVQSHFDTRHQIDEIRIDDSGTVTVHVTVTRHHGDKTQHIRVTEHHRFTDGKIAETRVHFHEER 67 PQPDQERIEEIVRQLYEAFDKGDLDTIASLLHPDVQVHINRDDETITFNDLEELKEWIERWRSNFDVQRHIDRIEIRGNTVTVHVTIHTTHNGQNYTIHATHHWTFKDGRITRVEAHFRTQE 68 PSEEEIKEFKRRLIEELWSTRDASAAERYMHPDATYHNSTQTFTNKEEIREFIQQLLERYKRIHVQIDEIRIDGDTATFHVTLQFHHKDGTVHVHVTYHDRYEGKRLKESRAHEDQHD 69 MSEEEIEEWKRRVVDAFFRNQDAESWAQYYHPDARYSYNNRTFTNMEEIKRWLEEFLSRVKRAHVQLDQVDVDGDTATFHFTAHFHHDNGTVTVHYTVHDRYEGNKLTETQTHTDQHD 70 MSEEEIKEWVRRMIEAVWSTKDWNAFLSFYTPDATMHYNDQTFTTLEEIRRFVEQVLKEAKQTHVQFDKMDVDGDTVTVHVTIHVHHDNGTVTIHVTRHFEFRGNKLKRDQSHEDQRD 71 MSQEEIEEWKRRVMDIVFRTKDADAFAELYHPDATVHNGDTTYTDPDEIIKFVREFMSRAKQVHVQIDRVEIDGDTATFHVTITVHHKDGTVHIRVTAHDRYKDNRITETQYDYDQKD 72 PSEEEIKEWVTRMVEAVFKRNDYSIWLSLVSDDWQLHVNTQTFTTKDEVREWLKKWISDVKQVHIQLDEVRVDGDTATFHFTVHVHHDNGTVTFDQTEHHRFEGNRITETRQHTDQKN 73 PSREEIKEFKRRAIEAFWSNRNADIWLELYDKDATMHVDNRTFTDKDEIKEWLERMLSRHKRAHVQIDEIRVHGDTATVHVTLHFHHDNGTVTTRATYHDRYEGKKITESREHRDTHE 74 PTDRSEIKEIIEREIEAFNRRDLDKWASLFHPDATMHLYNGRTFSTLDEIKEWFEKMMSSMRDFRIEVKSIEIHGDTAHVTMTMHVRNDSKDVTINYHVTIHFRNGKIVEKHIRADHQD 75 PGEEAIKEIITRWYEAFDKTGDAETLAQLLHPDWQFHYNGQRFTNLEEFKEWVERFLKRFPDSEHRIERIEVHGDTVTVHLTVHVRHGDQTVRLPTTDTHRLKDGKIVETHVHTGGDH 76 MSQEEIKELDRRRAEEAFQKKDPDAFISYFHPGATMHINNGQTFTTLEEIKEWFERFLKEMQDAQIEIKSIEVRGQRVTVHGTITVHRDNKTVTIHMTYTDEYRDGKLTHSEIHIDEQPT 77 PSQEEIKEWLRRYIEYVFQTGDADAAAKMIHPGWTFHHSSGQTFTDLEEFKEWVKRYQESMQDVQVQIDSIEVHGDRATVHMTLTVHTPTQTFQIHVTEHHQFKDGKITETHQHEDNQPT 78 DEKDEQALKEFKERFIREVWEKKDADVFVKYIDKDAQFHFSSQTFHNQEEIKEWVQRWFEERVKDAQVEIKRIEFHGKRVTVHVEVHVNHDDGTVTYRYTYHDEYQDGRLKHTTVHEHQHD 79 PEKDQRAIEEWVRRWYERVWRTGDWDQLAKMLTPDWTVHYNDRTFHDRDEFAKWWREMFEKTFKRVQVQIDRVEIHGDRVTVHVTVHRTSDSGDYTIHTTDHHQFRNGRIVETHIHTDDRS 80 LDPSQEEQIRQWFRRYYEAMNKGDLETLERLFHDDWTQHFSNGQTITTKEQLKEYIKQITDRNVQIEVHVEIHFHGTDHATVTVHITLHENGSTVHVTEHHHFEFTNGSLKIKETRTTIHGE 81 PDPSQQEAIKELKTRLVEALNKGDWETFRSLFHPDATMHLSNGRTFTTLDEIVDWFRKMTSNDVKIEVHINIDAIGRDTVQVHVTLHLHYNGQTFTVHATDHYQFTNGQLRIIETQFNYHGS 82 ADPSQQEQIKEWIRRFVEAFNKGDMETIKELYHDDATVHNYNGRTFTTKEEIVEYIKQLTDQDMKIEVHIEIHFHGNTHATVHVHLTMHARGQQYHFQSTFFFEFTDGKLFLKEERVTTRGS 83 VDEEQEKQVREWIRRFYEALNTGDMDALKSLYDDDATMHIANGRTFTNPEEIVKWFKEFSDQNWQLHVEVHIEMDGTDTVTVTAHVQAHGNDQTFNITQHFHFEVTDGRLFLKEDRIHRHGS 84 PMTAEQVVRAFWEAFQKGDWKKLLDMITPGWTLHISQGTTYHSLEEMRRWFEEFQKNNEQMHIQIHRVEVHGDTVTVHMTIHVTHNGETRTYHVTEHHTLSKDGKIVETRQQHDST 85 PVSAEQVAKRFAEAIAKKDLDELASIYADGATFHVNNGITYKSKEEIKKWWEEMLSNFPELHIQIDRIEVHGDTITVHVTMHTTHNGQQVTFHITSHFTFDKDGRLKSEHFHMNPT 86 PMTAEQVARFYWEAFQKRDLDAFAEIFHPGATLHIWKGITYHNPEEIKRAFEQWMKEFPQFHIQIEEIRVHGDTVTVHWTVTVHHNGQQYHFHATTHIRLDHNGKIKETRFHVHST 87 PETAEQVVRKVEEAFNKGDRELFDKMLHPGWQLHHNSGHTWTSKEEVKEWFDRWLKNHPRFHIQVDRVEVHGDTVTVHMTVTTHHNGQQYDFSVTEHHHLSKDGKLTETRQQRDPT 88 PMTAEQFARAFADALNRGDLDALRRIYHPGATLHIYQGITFHNLDEIKDWFKKWFSQFEEVHFEIKRIEVDGDTVTVHFTVHVTHNGETRTIHVTSHFELSKDGKLVSEHIHENST 89 PITVEQFVRTLEEALNKGDLDALARLYHPGATMHINNGETYHNLEEIKKWFKEFFESFQETHFQVDEVRVEGDTVTVHVTVHATRNGKTVTMHATSHIEFSKDGKIVSEEIRIHGS 90 PSEEELKEIKKRFAEEAFNTGQWEKFAEFFHPDATMHINNGTTYTDKEEITRWFQELMSNFPDVRVEIKSIEVRGDTVTSHMTIHVNRNGQTFTFSVTTTDHYKDGKLTETHIHIHGD 91 PSEEELKTAAKEAVEREVEAFNKGDMDAWKELFHPDATMHNSNGQTYTTLDELKRWVKKLFDNNIRVEFEVEVHIVDSKEVEVHVHFHFHNPDGTTMTVTATDRFRREDSQYFIVERHIHHYE 92 DKEEEIKQWIKEWYERWITAVNQKDVDKALSLFHEDVTIHYQNGQTYTTKDEVKEWLTQFISRVERIELKSMEIRIDGDTVTVHVHITFTNRQTGRTFHVDITHHWQFKDGKIVSVHEKRDRTDTD 93 DKEEEMKRLIRELIERYVDALNRKDRDAAAEMFHPDWQFQEASGQTFHSLEEWKEWVTQLMSEVTTIQIRHIEIHIDGDTATVRVTIEITHSKTGRTTRFRQDEHHEFRNGKIHRTRTKRDPTRTD 94 TSEEQIEEWLRQYYTAINNGDMDAVRELVHPDATFHESNGQQFDTRDQIVEFIERFWKTFADVHIDMKSFEITDNHVTVHYQVHTHHQDGKRVTFDGTDHFQFKDGKLTRLESNRDQKD 95 MSEEEIERAVREWLREFYRAINQNDLEALRELVHDDWTMHWDGRTFTTKDEVKDWFRKMLENSDITVHFEVHVEYKRDGRVTVTVHAHITHKETGTTTQVDEEHHFQFKDGTVKLLETHARTQPT 96 SSEEEIREAVKEIIRRFAEALNNNDMDTLRELYAPDATMHIDGQTFTTLDEIVDWFRKFLESFDITIEFEVEIRITKDGSVTVHVHFTVHFNDTGTTTKFTSTFHIQQVNGTFKIKEEHLTTQPT 97 PDERKIKDWIRRYLEALDRKDLDELKELFTKDWTFHLTGGVTFTNIEQFIEWVERWLSSFPRSRHQVDSIEIHGDTVTVHVTVTLTHPDGKTVHATYTEHHRFAPDGKITETRVHIDQKDT 98 PDAEEIKEWVERWFEEVFNTGDADRAKELLTPDWQYHLYAEQRTFHTLEEFREWFTEFIKTFQEIHVEWKSVEVRGDTVTFHIEMHTTHNGKKVTFTITEHHRFKDGKLVETHVRIHQRN 99 PDEEIVRWVREMFERAWNTGDADQAASYYWPDWRVVHNGNKENRDLEEYKEFWERMLRSASDVKFQFDSIEVHGNTVTVHVTVTFHHKDGETVHVHVTETHHFDKDGRLVETRQHSDQRDQK 100 PDERLIEFYLRYFDYVFNTNDADAMKSAYHPDARFTFDGNTSQISLDEFKEWFKKWVESVKRFHVKWDRVEADGNRVTFHVTIHFHHDSGKTTTVHITFHVVFDKDGQIVEERIHRDTHEHE 101 MDQSEAEEMIRQFYKRFAELLNRGDIDVLAQLFTPDATFHISNGQTFNSKDEFAEWLEELFRQNWQFEFHLEFKEFNGDHVTVEVHVTMRHSNGKTVHVTATHHWRFGDGELKLVEVRMHFNET 102 LSEEEIKEILKRFYEALDKGDADKLRELLAPDWRYHNAAENRTWDDKEEWIEEYIKSLRRHAEWQRQIESIEIRGDTVTVHYTVHWHHGDQTRTIRVTDTHHFRGKRIQETQAHWNQT 103 MSEEEVKEIARQIIKRWFEAVDKGDVDALMELYDKDRARMHINGQTFTTMEEIKRWFEKWASQNIKHDFEVHSQIEGSNVVTTHVTVHVTFSDGSTMQIHTTFFMEYSDSSWKILEQRTNNQNE 104 MSEKEVKEQIKEFKRRLVEAFNNGDLDAIAELVDKDESTFHFDGQTYTTLEEFLKWVKELLDQNVRLEVEIHIEIEGSNQVHVEVHITFHFSDGRTVHVTSHDRYDLSDSKLKLREMRVHNQGE 105 NSEEEIQRKIEEWLRQFYEAFNKGDADHMARLVDKDMSTMHSNGQTFTDIEEIKEWLKQLFDQGIRIEFEIHIQINGSSEATVTVHVRFHHPDGSTINVTEHHRFRADDSSLRLVETHQNWQNE 106 PSEKEIREMVKEWIRQWAEAFNKGDWERLAELYDDTNVEMHISGQTYTTLEEIIKWIQEFLSRDVQVHIEIHIQIHGSNTVTVHVHFTFHFKDGTTVHSTSTFHFDASDSSLKLTSQHVTNQTE 107 ASEEEIRETLKRFFEAINKKDVDKIASLFHPDATVHFYQGITVTTKDELKEFLEKWFKRLRDVKVQVESIHIDPTGHTVTVHWTMHVNKDDTTITFHATTHFHMKDGKIVEMRIHVEQRD 108 TSEEEIRRFLRRYYDAFNKKDVDKLEELLHPDWQYHNNTGQTLTNMEEFREWVKELLSRLKDVKIQIEEIHIDSNGHTVTVHVTVHVNNGDRTVTIHTTDHHHFKDGRLVETRVHAQQTS 109 PEWEEVVRELKRRLIEAMNSRDWSKLAKLIEEIFHDDATLQVNNQPFTTKEEIKEWFRRVASNDIDIEVDTEVQPKDGKYVTVHTTYHMTDKSTGTTTTFHATDHYQLEGNKIVRTTMHSRST 110 PSKEEIKDWVTKWYQALNHKDLDKVVELFHPDATIHTSTLNITWTTKDEFRKFVESWLRQFPDHRIQIDEIRIDDTSATATVHVTVHLTQNGETYTIKYTEHHTFDSTGQVVETHQTIDPK 111 PSKEEIKETVKRWFEAFDKHDLDALVELYHDDATITDYSNNTTFTTKEEYRRHVESFLRTFPRMQHDIHEIRIDETNYTVTVHVTTHLTRNGKTKTVDVTFHFTLDHDGKIKEQHTRFNDR 112 DWEEEIREIIQRFFEAIDNNDRDTIRELLHPDARMEVSEGYTMTNLDEIVKWVEDFFKNWHRMRHEIEEIEFNGKTVTVHWTAHFTHKSGQNYTIHGTTHIHFHDNGKIARLEFHLDQRD 113 TSEEDERAIKEWVRRFYEALNTDPDAVKEFYSDDAQFHAPDGTQFDTKDEIAEWLRQVASNTDITLHSIEVRTDEDGTIHVTVHVQVTNRTNNQSFTVTQHMTFKSDTYQIKRDELRVDDN 114 ASEEDKKRIEELIRRFYEALDKGDWKAIRDLFHDDARYHDSSKGRTFDKEELLRMVKEHSKHSSQHHIKSIEIEKRGDTIHVTVHVEVHNNSTGTTFSVTEHHTFVRHGDDWRIVETRQHIQPT 115 PSKKDEEDIRDMIRKYVEALNNNDLDAVREFYDPDATVHFNSEQRTLSWEDVIRWYEEMLKFRFRIEIKDLHIEQRGDTYTVHVHMQVHFEDTGTTVKVTATFHFEKRGDEWKLVEVHFTFQPE 116 PSEKEEEDIRQLIKHYADAINNKDVEAIASFYTDDATVRFASEQRDFDAEEVKRWYEEMLKNDHRIQIKSIEIRKSGDTVTVTVHMDVTYSSTGRTVKVTATFHFELRGDRWYLVSVHFHFQPT 117 ASKKDQEDIKEWLRRFYEAFNRNDLDAIMELVTDDATFRFSRHQKDFDKEEFREWVERFLSQDSRIQIKSIEIRQDGDEYTVHVEVEIHNSSTGQTFRVTHTWRFRKEGDRWKLIEVHFHWQPL 118 PSEKQQQDIEELLRRFYEAFDKGDLDALRELFHDDVTFHFHSEQRTYDKEEFLEWVERRTRFSTKHQIDSIEFRLHGDEVTVTVHVTTHDETTGTTFRSTHHWRVRQHGDEWRILEVHFTLQPT 119 PSDEEQIRDWFRRWIEAFNKHDMDTLRELYDPNATFHDSRTGQTYDYEEYIKMVKTTLDRFPDVRMELKSMEIEKRGDEITVHLHFQFHYKKTQTTQHVTQTFHFRREGDRWKLKEQRSREDG 120 PSDEEAIREIIRQLIEAFDKKDLDALMSYYDEDATFEDASTGQRYNYEQIRELIERWLRRFPNTAHQLDSLEIRKHGDTVTVHVHVTVTYKDTKETHTFTRTVHFVRKGDRFFITRDRTQSDN 121 PSDQEQVRDIIRRFYEAFDNNDLEKIKELLHPDATFQDSSTGQEYNWEQYVKRVKELLERFPNTAHHIDEMHIEVRGNEATVHAHVRVTYAETQTTTTADHTWFLRRHGDRWFVIRVTTTTRN 122 PMSEEQIRELLKRYYEAMNKGDVDTIAELFHDDARFHHSNGQTFDKEEYRKWVEEYLKKFDMRIQVKSIHIEIHGDTVRVTVHVEFHNPKTGRTFSITHHWHFDASTNKIKRVREQRDDQE 123 PASEEQIRDLVRRYVEAMNTKDVDKLVEFYHDDARYIHSNGQEYDKEEIKEWYERFQKRYDAELRIKEIRIQVRGDTVTVQVHVEVHFPKTGRTVTVTAHFFVDARHNKIVRVREQRDDQE 124 PLSEEQIRELVKAYYEAWNKRDLDALAELLAPDATFEHSNGQQYDYEEFREWVEEFMKKFDAQLRVKEIRIEIRGDTVTVTVHVEVHFSKTGQTYTVTHHWFIDARHNKFKRVQEHTDTQY 125 PDDKEAAEEFVRRYYEALDNGDLDAIKELFHPDAKFHSSSNQTYDREDFIEMIRQWMSQAKDSKHDIDSIHFDKQPDHITVTVHVTVHNSTEGQTYHFTHHWFFRLTDGSWQLVELREQTDGG 126 PSDEEAIREVDTQRLEAIDRGDLERLKELVHPDARFHTANHSTYDRDEWLELVKQFVERFPDSKHEITGMEIEIKPNEVTVHARVTVHVDQTGQTFHVQYTIHYRKTDGGWKIVEVHVQHDGG 127 MNDEQAIKEFKQRYVEALNNGDLDAIRSLFHPDVTFTSADNQTYDWEDFARMIEEWIKTFPDAQIQILSMEIEKTDSEIRVTVHIQVHYPTTGTTHHFTQHDRYRRTDGDWKLVESREQTDNG 128 PVSQEQVKELLQRMYEAFNNGDMDKLRELFHPDAQFTDSNGQTYNAEEMLEIIEEILRQFPDTQIEVKSIHIQVHGDEVTVTIHYTIRRNGQQFDATDHIRFRRTGDKVQIIEMRSDNSEVKK 129 PLSEEQIRQWLRRWFEAWNHGDRDAFRELYHPDSTYEDSDGQEYNRDEYLEMVERTLKRFPDARFEIKEIRIQQDGDTYTVTVHFQVTLNGQTYTVTQHFHFRADGSKLQLARQQSDHSNDSN 130 PMSQEQVKELIKRLFEAFNKRDLEKLERIYHDDATFRDQNGQEYDKEEFKDMVEKFMKTFPDFQLHIDSVEIRIHGDTATVHVHVTAHLRGQEFRVTSTIHLDAQDSEIKIISETVNRNEVKK 131 PVSKEQIKETDKRRFKSFDDGDIEALKELFHPDARYTDQHGQDYDKEEFIRWFKEWKERFPNTAHEIDEMHIQQDGDDYTVHAHVTVHINGQTYHVTYTVIYRYDGDELKIVRVQTHTDDTKS 132 PEEEEQEEAVRDLIRRYAEAFNRGDAETAARLFDEDWTYYDPSGQTYTTREEFKEWVKTLFSRNLRMEVEVHIQINPDGTVTAEVHFTFHHQSGQTYHVTETHHIRQENGTFKITRTEAHLQPS 133 PISEEQIKEFLKEYYTAIDNNDVDKIASLYHPDATIHFPNGQTLTNPEEIREWYERWLSQFPGTAHHIESIHIDKTSNTVTVHVTTHFNHNGEKVTVHYTATYHFKDGKLVSYQDNSGDTTG 134 PDEERIKEILERFFEALQNNDLEKLKELVHDDATFHFDSEKITFTTKEEFIRWVKEFWEKFDMKVEIKSIEIRGDTVHVTWEAHLTKDGQTYTFEGHTTFTFKDGKIVEVRFHVRRT 135 DQEEEIRRIIKREVEAFQKKDIDTWLSLFHDDARVHYTRHGETYTTKEELREFVERVLRHFDVSVEIKEIRISGQTVTVHVTVHETHNGQKYTFNVTVHDRIKDGKITERRVHWNPT 136 ASKEEIKEWLERFYEAFNRGDMDALKRIVDPGVTMHVSNGITFHDPEEIKEHFARMFESSKNTRLQIDSIEFQENGDTVTVHVTAHETKPDGKNVTAHITHHWRFKDGKLVEVHEHVDEQPT 137 MSREEIKDFKRRMVEAFNHKDLDALASLVHDDAQFHSSKGETIHDKEEFKEWVKKTLSVPMRVEIKSIHIDDKDATVTVHLEIHRTHGDKKVTTTATAHDRYTDGRLTETQYNFDDS 138 PSKEEAEEIARRFYEALNKGDWETIHELFHDDAQMHLPNGQTFHTKDEITEWVKRLISVPMRIHIEKIDFNDSEATVTFHVTMTFTHGDEERHIRATHHWRFTDGKVTELREHIDNS 139 PEEEEIKEVIKRFFEAIDKRDADKLRELIHPDARMQLNGEQLTNLEEIVKVYFERFVKNFQQAHHEIKSIHIDSNGTVTVHWQLHVTRNGKDVTINATTHIRFRNGKITEMRFHVDNQEN 140 PLEEEIKELIRRLFEALNKNDWEKYKRLFHPDATQHFNGITLTNLEEIVEWTYKWWVSQYDEWHFEIKSIHIDHDGTVTVHWTVHVTRNGKSITIHATTHIRVRNGKITESENHLDNQEN 141 PSEEQLKELKKEFIDAFNKGDADKLKSLLTPGSTWETNGNETITTLDEFKEWVERVFSNNTQIEIKEIHIDGDHVTVHVTIHTHHPTRTKTQQATQHDTYDKDNRITNTRENTDPKD 142 SSEEEVKEIKRRLIEAFNNKDVDALRELFHPDSTFHSDGRQYDNKEEFVDKFFEELVRRYPRAHFQLDHIHIDGNTVTFHMTVQFHQGDQTYHYRITVHDEYRNGRLANTQIHTDNHG 143 TSEEEIKELVRRFFEALDNRDRDTLKELYSDDAQFHVNGETYHDADEWLKRWFEEFVKKFPSTAHEIKEIRIHGDTVTVHFTVHVTQGDQDYTFHATSHFEFKDGKIKSEQEHMDQTD 144 MSEEQIRDIVKKFFDAVDKGDLETLKRLLHPDATFHLNGRQFDTLDEFLKKYIEEFQRRFPETHRQIDRIEIDGNTVTVHWTMHVTQGDKHITFHGTTHIHFKDGKITRVQIHIDNTD 145 TDPRIKEWVERFKTALFEAFNKKDADKFVSIFHPDIQFSDSDGSTIHTLEELKEWFEKFISQFDRIQVDDQEIRVDGDTVTVTTHVTFHRGHKTVTITYHDHYEFRDGRLVNVHTQTDPTK 146 TDPSIKEIIREFYTRLLEAFNKGDWETVVSIFHPDHTFHFEDGSSITTLDEWREWVERFMSQADRIKVDSLEVRQDGDTVTVHVTVTITHGDETYTFHATYHHVIKDGRFVETHQHNQPEQ 147 TDPRLRKWLEDFYREFAKALNNKDADLAASVLHPDVTIHLENGETLTTLDEFKEWFTKMASTMDRVQFDEIRIHQHGDTVTVHVTVTITHGDETYTFHATHHWVFKDGRLVEVHISTQPQR 148 TDESIKEFIKRFYEAVFDAFNKKDWKKFVDLFHPDVTLYDTDGRRYTTRDELREFFERLASRFDRIQLDSIEIRQDGDTVTVHIHVTFHHGHKTVHQTITHHWRFDDGRVTEIRQNSDPKD 149 ASKEQQEQIKDWLRRYFEALNKGDWETLKELFDDDWTVTDASTNTTYDAEEWLRMYRTLLSQGFEFRIEVKSVEIRLNPDGTVTVTVHFTMHVTHNGRTVTLHVTEHHHIRFKDGSLQVVHTQVHTDERHP 150 PSKEDQEAIEEFLRRFYEALQKKDLDALEELLTPDWRYYDARTNRTYDLEEFKEMVERRIQNGFDVKVEIKSIEFQKNPDGSYTVHVHLQFHFTHNGKTVTVHTTDTHRFEKHDGRWRLIETRFHYDNRHP 151 PSEEDKKKIEEFVRRFYDALNKNDLDKLKEVLDDDWTYYDARTNERFDLEEYLRRLEELIRQGWETHIEIKSIEIRKNPDGSYTVTAHVTLHFTHNGKHITVHATDHHHIQKKDGTLKFKETRAHYDSKHP 152 ADPSQQEAIKQIIERYYKALNEGDVDTMVDEIYHPDGRFTYSGADVEQFKEWVKKWLSTFNVKIDITSLEIQGKDNGQVTVTVHVRFQVHQGDKTYTFHVTQHFVFEFTKDGVRIQNDQINRENEG 153 DEREELKEAARQIAERFYEAFNRGDLDTLYELMAPGWTFHHQGGETYDRDQFREMVEKWLRQKIHLHIKSIEVEVKDDGTVTVTVHVEARQEDTGRTYPFTDHHTVQFTKDSWRIVETHQHRDN 154 DERKEIEEAIREMIRRYVEAFNRGDADALYELFDDDWRYHHQGGETYDLDQFREMVERIFSQGVRLQLDSLEIEVKDNGTATVTVHLTMTEAQTGRTTHFTEHHHFRQKKDGWRIQRTHQHTSG 155 DERQEIEEKVRELKKRFIEALNSGDADTVASLFHPGAQFHHDGGETYDLEQFKEMVERFFSAKIEIRLDSVEIRVNDDGTATAHFHFTFHETDTQRTFHGTQTDFYRQTKDGLYIVEVRSHRDG 156 HDEEAEEKIRQWLTEYYRAIDNGDWEKIAKLVTDDSKFTHRDNGRNETYDKEDLEERIKELANYESQHNLKEIRVQINPGGSSVTVTVHVEVHFHHDTGTTTFHATHHWHFRFENGELKLVEVRVQIDNS 157 MSEEEVRQAVREFKKRFFEAIDKGDLEKLKSLIHDDARFHHARGQTYNKEEFIEMVEKWHRQDTAHQIDSIEIQFHDDGSVTVTVHVTVHVNHKDKTVTVHVTYHDHYRYGSPGWKIIRMQVHRDHT 158 TSTEEAKEDIRQFVEEEFKAFNNGDLDKWAELVHPDATFHTDEGTTYDVDQMLEMIEKAVKNNTHVTIDSIEIRQHDNGEFTVHVHITVHTNRDGSTQTVHVTQTDRFDQSSPGWKLIERHTQRDNT 159 ASKEDQEAIKELLKRFFEAMDKGDLEALKRLVDEDWRYYDASRNQRFDADEFLEMVERQARQDTKRELKSIEIQPTDEGHITATVHVQVHVTRNGETRTYTVTEHHVFVKKNGSWKIVETQVHTDSN 160 ASPEQQEQIRQLVKRFFDSMDKGDRDAIREFYDDDATYRDARRNQEYDKEQIVEMIERIFRNDTRHEIKEIRIQPTDEGQITVTVHVEVHQTHNGKQVTFTVTSHFRFEFRNGEVYLVSEEVHTDDN 161 ASEEQQEKIKQWKRRFFEAINNGDLDALRELVHPDAQFTDASTQQTFDVEEYLKRIEELLKQDFQIEIKSIEIRPTDEGRVTATIHVQVHENHNGRTKTVDVTQHDLYQFENGSVKLVSTQTHRDET 162 ASEELRQAAEDWVRRYAEAWNKGDVDALASLYHDDARYTDDSTQRTWDKEEFRERFERLMSQDMRMEIKRIEFHPTDEGEITVTVHVTIHANHNGRTHTVDVTRHFRFRQQDGEVYLVSDQSTRDSK 163 ADKEQQEAIKDFKRQYVEAYNKGDMDAIKSLFHPDAQFHDASRNQTYDLDEFIERLERILRQDSRMEIKSIRIEPTDEGEVTATVHVTVTHNHNGKQHHITYTQHDRYVFQDGSVYIVETQIHTDSN 164 TSKEQREKLEEVIRRFYEAFNRGDLDALKRIVDPDATFHDDSKQQTFDLEEFIKRVEEILSSDVKIEIKSIEFHPTDEGEITVTVHVQVHQNKDGRTQTFTVTNHDVFREENGSFKIVEHQSRTDDN 165 DSPDQQQIKEIIKRFAEAFDKGDADTVLELVAPDWRYTDARSNTTYDAEEFAEMVKRLASQDLQRQIHSLEIEFRGDTATVHVHVTVHHNKGDRTQTVSVTETHHLQKRNGQWYLVRTEVTHHQT 166 DSEDQQAIKELMKRLYDAINKGDMKALKDLLHPDVQFTDSRSNTTYDLEEYIDMVKKMLSRDVQVHIESIEVRIHGDEVTVTVHVTFHEHHGDKTHTVRVTHHWRIRKKDGQFYVIEVRVTHNPS 167 DSEDQQQIKRLKKELIEAFNRGDMDRFKELIHPDAQFHHYYSNTTYDVDEFIEMLEKMLSTDVRVQLDEIHIQQDGDEYRVEVHVTVTWHKDDKTQHVHFTATDRYRKINGQWYIVEHRVRRHQS 168 PEEEELQEAIKEIIHRFYEALNKGDLDAVMSYYDDDARMHHASGQTYSKEEIRRWFEELLKQGVQFEIKEIRIQVDKDGEVTVTVHVTLHHTGTGKTVDVTQHFRFRRENGSFKLLEDQVHEHDK 169 PEEEELEEKARRAVKRFFDALNNGDIDAVLSLFDDDWTYHHSSGQTYSKEQFKEMVERFQSQGFEWHIESLEAEVKKDGTVTVHVHVTARQRGTGQEFKITETHHFRFENGSVKIVETHVHTHDT 170 PQEKELEEQVRDVKRRMFEAFNKGDWQTLSELIHDDATFHHASGQTYDKEQFIRMMEEMFKQGWQLHVDSLRIEIKKDGEVTVEVHVTAHQPGTGRTTHFTSHDRYQQKDGSVKLTETHTHEHST 171 PKEKEDRDEIKEIKQRLAEALDKGDWKTFRELFHPDAQFHDDRTGQTYDLDEMLEMIQRQASIPARREIKEIRIQFIDNGTATVQVHVQLHQTRGDVDYTTDVTTHDHYTAKSDEWKITETKITVDDKDG 172 PWKKEAEEQARELVRRLYEALDKGDIDAIREMLHPDFTYHNPSTGQTYDKEQFLEMVERLASIPMQRDIESIRVEIKDDGTVTVEVHVTIHETHGDQDYTVHVTDHYHFRSDSDELKLVELHSTTDTKHD 173 PEEEELKEQVKEWLEREVEALNKKDLDTWVSLFHDDFRYHDPRTGRTYDKEEMRRMVEEFLKFDFRIEIKEIRFEFLPDGTIRVTVHVQVHVTRGDQDYTVHITYHLQFRRDSDELKITSKQSHSDTKDD 174 PWEEEMKEQIEKIVRRLVEAWNKRDIDKIVSLYHDDWQYHNEKTGQTYDKEQFKKMVEELLQIPFHIQITSIEFRTHKDGEITVTVHVQVHRHHGDKTYTIDYTEHHRFRAESKEVKIQETHVRTDEKRE 175 PAGEEDVRTWLKRFYDALNNKDADKVASLYADGAQITFSESNRTLDKEEFKRWVEQMASTDAQFEIKSIEIRFGDDGSVTVTVHVQVHENHGDQTKTVDVTQHFHMRYTDGQWKVTRDEIRFHED 176 AVGEEKIKEVKRRLAEAFNKKDVDALLRLFHPGAQFHFAESQTTYDQEEFKEWFERYASTDVEMRIDSVEIRVNPDGTVTVTVHMTLHMTHGDQTQTFHVTAHDEYRETQDDLKVAETRFHMHQD 177 SGGEEEIRRLVKRFADAFNNKDLDAILSLFTDDWRITDARRNQTYNLEQFKEMFERIASQDVQVQIDSIEVRHNDDGTITVTVHLTYHERRGDKNDTFHVTEHHHFQLTQDGMKLVETRVHHRGE 178 TSEEEQKEQIKELIERLVEAFNKGDRDKFESIYDDDATIRDASDPTDFTKEQFLELVKQFHSQNFHLQITSIEIRINPDGTVTVHVHVQVHLHQGDETKTFNVTSTFFFTQENGSWKIKEERIQFNTHE 179 DSEEEVREKIKETVKRLFEAIDKGDLDKVRELIHPDATFHHDSGETYSLEEFLEMVEKLARNNSRHHIESLEIRQVDDTTFRVTVHWTLTDDRTGSTLRVTTHIQVRFENGELKITRVEERTDPT 180 DSEEEAREKIKDFKRRLVEAFNKGDIDALRELFHPDVTFHTSDGQQYDLEEFLQMMEELFRQGVQMHVRSMEIRQVDDTTFTATVHVTLHNESTGTTVDVTFHDHYRFQDGELYLIRSEARTDSK 181 DSEEEIREKIKELIKRLVEAINRGDADAVASLFDDDWRFHQDQGTTYDREEFKKWVEELNKANVHIEIKSIEIRIVDHNEVTVTVHLQFHNDTTGTTVRVTEHHRFVRKNGQWRVVETRMHTDPL 182 DSEKEQEEKIREFIKRFYEAIDKGDLDELRELLHDDWRYHHARGQTYDKEEFLKMVEEMHSNDLKHQIDSLEIRVDSENTVTVHVHVTVHNSSTGKTFRFDDTHHFRFQDGELYLTRTETHTDNS 183 DSEEEMKEKVKEVIERFYEAINKGDLDALRSYMTPDWRYYHWSGQTYDRDEFLKMVKEMNDAGVRVQIDDMEIRIDDHNQVTVTVHLTLHNQSTGTTVKTTDHHTFRFQNGQVYIVSTHVQEDHR 184 PGQQEDQRAIKEWKERYIEALNKKDWKAVADLVSPDAKFTNNSEQQTFDREEYIKRVREYLEKFDTRFEVKEIRIEIKPGNETFTVHVHVQVHVTHGDETRTFDVTQTDHYTKKNSQWYIVETRWTTREVK 185 PGEEEARRQAEEIARRFYEALNNKDWEAIARLVDDNAKFTLTATQRTYDRDEMIEMIRRMLEQFDIRVEIKSIEFHIDPGGDSITVTVHGTITFNRGDKQKHVDVTHHWHFKQGDSQLKLTHLQETRRDLE 186 PGDEESEKEIREFIEREFEAFNKKDWEKWARLVSDDAQFHMASEQRTYDAEEMKEWVRRTLEQFDIKIEVKSIEIRFHPGGDHVTVHVHFTVHETHGDETRTFHVTVTLHFERRNDQWYLVSKHIHIQPQE 187 MSEKEAEEAIRDTIRRWVEAINKGDADTAKELYTPDATIVHDGQQFDRSLDEIKEFIKKLFDNNVKLHVRSIEIHVDPNGGDVTVEVHVQLTDDRTGKTVDVTFHAHLTINGDEVRIKRQHEHRSDT 188 PSEKELEEAAREVVKAFYEALNRGDADRLAELLAPDVTFVHSGNQFDLSLEEFKKWVEEFTKAGFTLHVHDMEVEIHESGGTVTVHVNFQLTDHRTGTTYTVRDTYFLQFHGDEVKIKRVESQTDQQ 189 TSSDEAREAIKEIFRRLAEALNRGDLDTIKELYDDDVTYTNNGETQKRTRDEYKKFAKEFFDNNIKIQIHDMEIHQDPRGGTFRVTVNFTVTNDRTKTTRRFQSHMVLQFHGDEVRIKEEEERTDQL 190 PSKEDEEQLREFDKRRFEAINRGDWEAVERLMHPDATIHVASRQRTYNLEEFIRMMQELFRQNVQLEIKSIEVRQLSKDTFQVHGHLTVTNRTTGTTFHVDYTVFYRKGSGDWKIIEVRFRTDEEK 191 ASKEQQEQIREWLKRFYRAFNQGDADALMELLHPDWTYTNESEQRTYSKEEFREMVKKLFDAGVQIKVDSIEIQPDSKDEITVTVHVTVTQKTTGRTWHVTEHHHFRHGSGDMKLIRTRFRMHQQN 192 PPPEDEEAVRQVIRRYYEAWNNKDADKIMSLYHPDARFTDESKGQTYSYEDYKEMVERILRNSDMRIEIKSLEVRKVSDGRITATVHVQFHHTHGDEHHTVRVTQHFFFQKKDGEFYIVEDRVRIDNN 193 PPPEDQEQVEETDRRRIEAFNHGDVEAIASLFHPDATYEDSRTGQQFDREEFKEMVERFFKSVDFRIEIKSLEVQLYDEGHIEVTVHVQVHVRHGDEHYTMHVTYTVRYRKVNGTWKIVEMRTTSNDS 194 DEREESKEAIKEWKRQYVEAWNKGDLDALRELFHPDVTWDGHPYDYEQWVERVERFLRQFDTQLHMDSMEIRIDSDNTTVEVRVTITVHNHRGDRTETYTFHYTDVYDSRHNQLVKSTTHTDT 195 PHEEEIKEIVKEIVRRWVEAYQNRDMDTLRELYAPDVEFEGLPVDYEEYLEWVERVLKRADVRVEIKSIEIRIDHDNTTVTVEVHVEVHERHGDQDHTYRATYEFVIDRRHNKIKRQREQRDT 196 DEREEIERKIREFKRRYLEAWDNGDLDKLDELLHPDATWDGNDIDWEQWKEIVRSLLENSDTAHHLKEIHIEINDDNTTVTVTAHVETHHHHGDRTETYRVTYHDHYDRRHDKLTRSTTRRDE 197 PKAQEDIRQLVKRYFEAMNHGDMDALRSMIHPDATFHFADEQKTFDREEYLERWKQSFDNVDFRIEIKSIRVEQNDNGTYTVTAHWTVTFHHDHRTHTYDGSTTFFVVKDHNGEWKFVEVRENMNQNQ 198 PEAEEKIREWIKRFYEAFNKRDMEKLKKMIHPDATFHFEDEGRTYDAEEFLEMIEQFLKKFDARIQVDEIEIRIDEDGTITVTVHVTLEVTDSSQTYTHRATHHWFFRQDHDGSIKLVEVRINTDQEQ 199 PKDEEDIRDIDRKRLEAIDKGDLDKLRSLFHPDATFHFADYGRTYDKEQFLRYMEELTKKVDMRREIKEVHVEKKPSGEITVTVHVTVQFHHPDRTIHRDITYTVFYRKDHNGEWKIIRFHINETQKN 200 PKWQEDVERLVRRFFEALNKNDMDALDELFAPDAQFTFEDTQQTYDKEEFKEMIEKMLSNVDMRIEIKSIEVRLNDDGTVTVTVHWTATRHHDNSTFTHHGTTTFFFQPDHDGSWKIKELRINSTNEN 201 MSDEELKEAVEEFDRRRFEAFNRGDLDKLRELYHPDATFHFASEGQTYNLDQFIEMVRELMSRDVKIQIKRIEIQIDSRKDYITVTATFEMHEHRDSRNKTVQYHYTVVYRKGSFKIIEVRVQSDEDS 202 MSEEELKEVIRQLVRRFYEAMNKGDLDTLKELFHPDAQFHHAARQQTYDLEEFLEWVKEMFERNVRIQVHQIDVQINPNKDTITVTVHVTFHNHETSSNKTVRVRDHYTFQRGHFKILRVQSHVDDDS 203 PDPSEIQEQVKDFIRRYVEALNKNDLEELRRLFHDDWTYHDTRTGQDYDRDQFLEMVKRRIDAGNRAEFHVDRIEIDMNDGDDVTVTVHMTVTFHHGDQTRDYRVTEHHTFRRGTNSLKIVRTQTTTHNTQ 204 SDKSEAREIVKDWFRKFYEALDRGDMDAVRELLHPDVTFHNDSTGQTYNKEDFIRRWEEMLRQGNDAQRQLDSVEFDDNETDEITVTFHVTVHWHHNDHTQTVKITNHDRFRRGTNQFYIIEHRSRRNNTR 205 MDTSEAQEAIKEWKRQYIEAWNKNDLETLKKLIHPDVTFHDSSQGQTYSADDFLERFERMVRAGVRVQVQLDSMEIDQNHSDTYKVTVHLTVHQHHGDKTTTFSVTQHDRYDQSTNDFKVKEVHIHTDQTE 206 MDESEAKEAIKEWLRRYYEAWNKGDADALRELLHPDVTFHDSSTGQTYTLDDFLERFERLLKSGTRFQIEIKEIRIDPQETDDYRVTVHYTMTVHHGDQTYTFTATDHFRFRYGTNEFKLVEVHSTVDNTS 207 SDKSERQEEVKEWVKQFYEAWQNNDADALRELIHPDVTFHNDSTGQTYTADDFLRRFEELVKNGARVKVDIHSLEIDDNETDDVTVTVHYTVHRHHGDETQTQRATDHFTFRYGDNGMRLTSVRSTTDDTE 208 PQEKEQEEAVRDLIRRMFEAFNKKDVDAVLSLYAEDATYHDSSTGRTFSYEQFKEMLKRLSQTDTRLEVDSLEIRFHDDGTVTVEVHVTMHTRSNSQPQTVKVTSQFHIRQENGSFKIKEEHVTHDST 209 PEEEEFRKAVEELKRRFVEALNKGDWETIARIFTPDSTMTDSNNQTFNLEEIRERVKQLFSNDTKVEIKSIEIRFDPSGRTVRVTVHITVTTTHNGQKKTFDVTAHDVYVQDGDTLKIVHTQFRRRDT 210 PEEEEMKKAAEEVVRRFYEAFNNGDADALKELVSDDSQFHDSSGQTYNAEEFKEMVEKLLSANVKLEIKSIEFRIHKDGDEITVHVHVQMHQTTNGNTKTFDGTNTDRLRKDGDSFKIVEHRSHWRNT 211 PTDEELEEAARQWVRRWVEAFNHKDLDALRELYHDDFRYTDSRTQRTYDKEQFEEMLKEQMKFDFRIEVKSIEVRIDSRKNHVTVRVNMQVHETHGDQDHTVDATYEFHFRFDGTSVYLIEQRVHYNPQ 212 PSDEEIKKQIEEVVRRYVEALNKRDLDTILSLLHDDWTYRDEKTQRDYSKEQFKKMVEEAAESEFRVEMKSLEIRVDHNKEEVTVQVHLQFHHHHGDRTQTIDVTEHHRLRYDGTSWKIIETRVHIREQ 213 PEEKEMEEQIREALRRFYEAFNNKDMDKIRKLIHPDATFRFEETQRDYDYEQFIKWVEELLSFDTKIEIKSMEVRIHPNGREVTVTVNVQVHVHRGDKTTTQDVQHHWHFRNDGTDWKVISLQIRIRTT 214 PSKEEIRKQIEEIIRREFEALNKGDLDTWLSLFHPDAKYHDASKQRTFDREQLKEMFERLVKSDFRVEVKSLRIEVDDSGTEVHATVHFQVHFNHGDETHTFDVTTHITFVRDGTSWKIKSKQTHRHSQ 215 PEKEEIKKQIKEIIERMFEALNRGDMDTAASYFHDDWQFHNNKEGQTYDKEQWKKMVEELLKNDVRMEIKSIEVRVDDSGREVTVTVHVQMHFNHGDRTQTVDITEHHRFVNDGTDWKIIETHVTINEK 216 PEEEEMEKQVREVIRRLFEALNKGDLDTADSIYHPDATFRFASTQKDYDYEEFKEWVKRLVETSAQLQIHSMEIRIDPSGREVTVHVHFTVHRNHGDTTHTFRVTSTFHLRNDGTGWKIVSEQIQTDST 217 PEEEEMEKAVREVIRRYFEAWNKGDMDKIEELYHPDATVRLERYQRDFDYEEFVEWVRRVLSFSLQIDIHSLEIHIDPSGTEATVTVHYTVHYNHGDRTKTIHVTSHFHLRKDGTSWKITSEQAHFRET 218 PSEEDEKRIKEWKRREVEAFNKGDMDKLEELFDPGVTFVHGNETQDRDKDAFKEFVKQLLSQNIQIEIDSIEIHKSSSDGDLTVTVHVTFHNKSTGYTYHITYHDRYRVDGKEVRLVESQERRDNGR 219 PSKEDQEQIKEIVKQFYEAFNKGDYDKLSRLLDDDHTVHISNGQTITSREEFEKWVREFKSKFNVHIEIKSIEVRQHDDGTFTVTVHVEVHETHNGETRTYKVTTHHEIRKTKDGWQMVRTEVHWNNTGS 220 MSDDEAKEAIKEWVRRYVEALNKNDLDALDELFDEDWEYHNSAEPRTYDKEEFKKMVEELIRNRLEFRIEIKSIEIRRTNGDDYTVHVHVQVHTHTDGQQHTMNVTETHHFRFKDGELKLKETRENINPT 221 TSEEEAQEAIKEMVHRFFEALDKGDWKKLADLFHDDGKFHDSSNPTTYDKEEYIRRVQSRVKANIQSHHEIKSIEIRRTNGDEYTVTVHWTLHEHHDGQTRTRNATTHLRFRFENGQVYLIEMRTTWHST 222 MSEEEQRQQAKEWLERYFEALNKKDADAVASLFDDDWTFYDSTNQQYDKEEFKEMVERMLRHFDAQFDPKEIRFQIHGDNHITVTVHVTVHFHTDGRQHTFHVTEHHHFRFKDGGIKILETRLHRNPS 223 MSEKEMEEEARRVFEQLMRAFNTGDADAALSLYHDDARFHDSDGRTFSKEEFKEWFKRWADENNAQLHIHDLEVQIHGNSEVTVHVNINVTFHTDGRQFHITFRSTFRLEFHNGELYIVEEHLHTHST 224 PSDEQEEQIRQTKKRFIEAFNSGDIDQFKELVHPGATFHFSDTGRTFDKEEFIEMIKKLLSQDTKIEVKSIEIRLKDGTEVTVTVHVTFHTHRGNKTQTFDVTFHDHYRQTKDGWKIIEVHITTNPT 225 PSKEQEEAIREILKKFAEAFNKNDLDKLFSMLHDDWHYHDASTNQTYSREEFREMVERLLSTDVKIEIKEIRIELKDGEEVTVEIHVTYHFHHGNKTKTVDVTEEHHFRFTKDGVRIVETRVTSNER 226 PSEEQEKQIRELVQRFYEAFNNKDMDKMSELVHDGAQFHFSNTNQTYDKEEFLDMLRKLLSQDVQVEIKEIRVQLFDGEEITVTVHVQMHRNPGNQTQTYSATHHWRFRLTKDGWRIIEVHITTNPT 227 PSEEAQEQIKQIKDRFIEALNKKDMDAIDELFHPGAQYYNSDTGTQYDKEEFKDMVKKRLSRDVRLEVKEIRITEHDGDHYTVTVHVEVHFHQGNETQTYKVTFHDRYRKTKDGLYIVSTEVTTRPT 228 ASPEDQSKIEEWKRRYIEAMNRGDLKTVIELFESSPDARVTENGQTYNPEQFKKMVEEFLKKFDFRIEIKSMEIRQDKDGEIHVTVHYTVHVTHNGETQTYHYTSHDRYRKSNGDWKLVRHQTHTQPS 229 TDPEDQRKIKEWKQRYIEAMNHRDLDALRELVQSSPDATFYLNGQQFDIDQYIEWMQRLLENFDIRLQLDSMEIRTDEDGTIHVTVHITVHVTHNGKTDTYTVTQHDRYEKHNGSLKLVSSRAHTQPT 230 MSEEEIKEWVKRWAEAFDKGDVDALASLYDDDAEIHYSDGITITSREEFKEWLKKFMRHADVEHKEIHIHIDKRTGTVRVEFHAHETRRGTGETYDATFSRTFHFDDGRLKRDQAHSDQKKT 231 TSEEEIKEWVQRWLEAFDKGDWKKLVDMLDEDWTYHNSNGRTITTLEQFRRWFEEFKKNADTQHKEYEIRIDSSTGTVTVHYTVEWTQKGTGEKYTTHVTEHHTFTDGKIQETRTHEDTKKT 232 MSEEEIREWLKQYYEAIDNKDRDKLDSLVTPDVTFHYSDGITLTTKDQYREFVTRVLSNMDVRHTEVEIHVDSTSGTVTVHVHVKVTHPGTGETYDATVTDTYHFSDGRLTEVRSHRDTKHT 233 STTEEIIEIIRRFLEAFDKGDMDALAELYAEHATMHTPNGRTFTTRDEIREWFRELFEKAEFHRTEVEIHVDKDTATVHVHVTVTHGDETYHARVTSHFRFKDGKLTEERIQVDSGD 234 MTSSEIVEIDRQRFEAFDKGDMDRLLELMHDDSTMHTPGGRTFTTKEEIKEWLERLLSNSDIKHTELHIHTTKDTVTATVHVTRTHGDQDYHVTFHYHLTYKDGKLTEVHIHSDENS 235 MDTEAAIQIVRRLIEAFDKGDVDKLLSLYAEDVTIHHPGGETLTTKEEFREWFKQVKENAEFHHETVEIHVDKDHATVHFTVHVTHNNETITINVTSHFRFKDGKIKEEHVHEDENR 236 MTTEEIIRIVRRLLEAFDKGDVDALLSIYADDVTLHTPNGRTFTTKEEIEEWLRRFQSNAEVHRTEVEIRVDKDHVTVHVTVTVTHGDQTFHFNVTSHFRFKDGKITEERIHIDQGD 237 PGEEKIREWLKRYFTAFNNKDLDAVDSLVSDDATFHFSQGQTFHDREEFREWVERLLKTFDFQIQITELRADIDGERITVHWTVHFTNSTSTTTIDVTTHFRFDGDKLVEVHFHLNQRD 238 PGEEKVKQLIERLFEALDKKDIDAFMSLYDDDATMHYADGITFTSKEEIKKWFEEVLSRFDFRHQITNLRLDLDGETVTVHVKVTFTNPTSEHHFDQTRHFRFRGDKLVEDRIQTHQTN 239 PSDEEIIRELKRQYIRALNTDIDAFARMWHPDATFHYGDQTFTNKDEVREWFREWLKNFHLEIKSIEIHVYDDGRIEVHAHVQAHTPSSTYDFRATDHYRKTKDGQFRIVETRITWDE 240 PDDEEEIKEWLKRFYEALDRDADQARELLHEHSTMHVYGTGRTFKNREEILEYLRKQAQHYDHEIKSIEVQPHDNGQVTATVHITIHTPTQTFQVTETHRFQKEGDTWKLVETQIRIQPT 241 PSDEQQIEELLREYYRAINTDMDEFKKLVSDDSTFHFDYFKITFKNPDEVVDWFAKFASKWQFFIESIEIQPHPDGTATVTVHYTVHTDNQTVRATDHFHFEKRGDQWYLIEVRSHFQDS 242 DAEEEIKELVKREAEALDKGDVDAWASLFHPDARVEHSNGEEYTNLEELKEAIRRFQKNSEVHREIKEIRIDSSTGRVTVHMTMHVTHGDQDHTFHYTVHIQFDKDGKIVEKQVHWDQQD 243 PDKDEIEELLRRFYEAWNNGDFDKLRSILHPDVQYHHSSGQTFNNIDEITEWIRRFLSNADAQIEIKSIEVDKSRQTVTVHYTMHVTHGDQTHTIHATDHYTFDKDGKITRMQSHFNQQD 244 DAEEEIKELLKRLYEALDKGDLDKIREILHPDVTVHYSDGTTLTNIDEVAEYVERFKRNAETHRQIDSIHIDSSTGRVTVHVTVHTTHGDSDHTFHATHHWQFDKDGKITEMRVQVHQQD 245 PSREEIKELIERWYDAFDKGDVDKLLELMHPDATIHFSNGETITTLEEFREWFERWFSQFERMHRQFHSIEFHGKTATVHSTLHLTRPDGRTFTIHQTNHDTFVDDGKITEHRAHLDEKPT 246 PSEEEIKELLKRFYEAFDKGDWEALLRIIHDDATFHFSKGETITSKEEFREWFERVMSQMSRIRREIKSIHIDGDRVTVHVTLHVTNDDGSHTTIHVTDTYQFDKDGKITRVESHINEQPT 247 ASPEQQQRLRETVKRFYDYLNNGDIDAVMSLIADDATFHFDGRTFTTREEIKEFFEKWFKNFDVQIQIESIEIHGDTVTVHVTVTMTNDSETQHHRYTETHHLKKDGRIAQTHIQTDN 248 TDEEQQRQLKTFARRFYEAFDKGDLDKLISLFADDATMHWNGQTFTTLEEIKKWLKEVMDNVDTAHEIKSIEIHGDTITVHVTVHHHHDHETHTVHVTHTWHFDKDGKIKELRAQTNN 249 ADEEFQRAVKETKRRLAEALDNGDIDTFISLIHDDSTMHVNGQTFTTKDEIREFYERWLSNADVKHDIDSIEVRGDTVHVHVTVTVTHDHETRTYHVTYTDHYHKDNKLVETRIHTNN 250 ASEEQIREIIKQFAEAFNNKDLDKMESLYDDDATLHISDGTTFTTPEEFRRWLEEILKRFKQLHMEVKDLHVEGDTVHVHVELHFTHDGQQVTVHATSTFHFDHNNKIKEERIHHDSS 251 PSEEEIKDLLKKFYEAMDKGDMDLLRELLHPDVQVHISSDPKTFNSLEAFLEWVERWNKNVRVRREIDSIEIRGDTVTVTVTMHVTHKNGQNYTFTIHDHYHFDKDGKIVRIESQVHEHD 252 PSQEELEEIDRRRLEALDKGDLDTFKKLVHPDATFHISEYQVTFTTADEYIEWWARLYSNFEVHREIKEMHITDREVTAHVTVHVTHRDGRTQTIHMTYHVRYDENGKLVELRVQVHHTG 253 PSEEEIRKIVKRFYEAMDRGDMETLKRLFHPDAQMHIEKHGITFHDRDEIIDWIAKLISNSDVHREIKDQHVTSNTVTVHVTVHWHHKDGKTDTVHVTHHWHFDHDGKIKSVRITLHDTG 254 PSEEEIREIDTRRIEAFNRGDMDKLAEIFHPDATIHFESYQITFHSLEEFKEWLRRWVEQIDYKIDIESMEITDRTVTVHITVHLHHKDGRTQTVHITYTIHYDHDGKIKHVRFHSDSRG 255 PSEEELEEAVRQILQRLYEAIDHGDADTIRSLLDDDWRYTNNNHNQTYSRDEFLDMVKKMVSTDVRHEIKSIEIQIHPNGRTVTVTVHVTVHHTHNGSKRTVDVTDHHHFEYKGNDVKIVHTQATHRQT 256 MSEEEIREAIRQAVRRFIELFNKGDLDQIKSLFDDDWRYTDARHGQTYDRDEFIEMMKELFDRDVKIELKSIEIRINPDGTTVTVTVHVEVHEIHNGQQRTVTVTEHHHFRFSGDTWRIQRTQVHFRQQ 257 TSSKEAEEAIRDMLRRYYEAFNKGDMEKLKSLVDPDASFHDARTNQQYDKEQWLEYVKELLKQDAKVEVKSIHIQQQPRGDHVTVTVHVEMHVNRNGQTHTYTITDHYHFVRKGDSWKITRVQSHTHQQ 258 MSEQELKEAIKEFVERYVELLNRGDADTLAELIDEDWRLHDARTNTTYDKEQFKEWVEKTFKNDTKVELKSIHIQVDPNGNTVTVTVHLTYHTTKDGETRTVDVTEHHHFTFEGDSVKLKRTQVHHHQR 259 MSEEEIKSAIEELVRRFYEAMNKGDMETIERLVHDDATFHNPDTGQTFDKEEFKEWVETLFRRDTKLEIKGIEIHVDPSGKTVTVTVHVHMTTNKDGQTHHYTVQHHWVFRYKDNSFYIVHVTVRTEQQ 260 PSDEELEKAVREWIKREAEAFNKGDMETWYSLFHPDARFTDARSNTTYDLEEVKRMIKEMVERNTRMQIDSIEVRVDHDRRTVTVTVHVTFQTTRNGKQQTVHVTYHLHFRYEDNTLKIIHKRAHHNQS 261 MDEEEVKEAIKDTKRRLIEAMNTGDMDKLDEIYHPDAQFTDNNTGQTFDKEEFKEWVKEQHKMDAKIEVKEIRVQQNDNGETVHVTVHVQIHTTHNGENRTFNVTTHDRYQFKDDTVKIVESRYTTNQT 262 MSDEEFERAIREYKRRLIEAFNKGDMEALRRLYHPDVTFHDARTNQEYDLDEWLEMVKELLRQDAKIELKEVHIQVHDNRKTVTVTVHVQVHVNRNGQTHTYDVTYHDHYRFKDDTVRIVRVQVHHRQT 263 ADEEELKEQAKELIRRYYEAWNNNDADTIADLLDEDVTFHNHGQTYRLSRDEVKEMVERLASQDYQLHMRSLEARVGDSNTITVTVHVTMHSRHDTGTRTTHFTDHYVFEYKNGEMKIVEVHSSRETRQT 264 TSEEEVREAVKELLRQYFEAFNKGDWRTIADIVDENVTYVHNGQTYNLNKEQIVEWVKEMKKNNYKLDIESIEIRVGDSKNATVHVTWTMHVTHDTGTRTIRATTTFHFRQSEGPWKIVSVQTDYEERQN 265 PSEDELKEQAKELIERFFEALNKGDWDTLAKLFTDDVTFVHNGQQYDLNKEQFIEYVKELFKADTKFHVESIEFQIGDSNTITVHVRWTAHTTHDTGTRTVHANTTFHFVANDGPMKIKRVEVDWEERQN 266 PDEKEMEEEVREFDKRRVEAINNRDLEKVKSLVHPDATFRFAKTQKDYDKEEFAEWVERMLRNDTQIDIDEVHVEIKHKTQATVTGHITFHTTHGNRTITFHVTYHVHYRRGTHGWKLIRLQLHFNDS 267 PDDKKAEEDLREIKQRLLEALDKGDWDAVRKIVHPDATFHFESHQQTYDLEQFVEWVKQMASQGTQRHIHRIEIEKKDEHEYTVTVHVTAHHTHGTKNVTVRFTFHDRYRRDTHGWKIHEVRVESDDS 268 SDLQEQIKELIERWVEAWNRKDLEAIDSLYHPGAQVDDNQIDKEQFKKRVKEILDNTDTQLHIDEIRIQIGDDTRITVEVHVTVHRNEGDRTYTFHITTTFHFRLINGQWYLIEQKTHTNST 269 PEWEEAVREIIRREVEALNRKDLDKWASLYHPGATDHTQNRDLEEMKDFWRKRLENSNIHIEIKEIRVQKGDDTEVTVEVHVTFHWDHGDRRETYHVTYTMFVQLRNGQWKIVRKQEHHNST 270 PEEEEIRQAVEEIVRRFYDAFNKNDLDAMASLFDDDWRFHNDSTQTTYSRDEFKDMMKKLLEQGWQLHIKSIEIRINPDGSVTVTVHVQAHNQTSNQTVDVTDHHHLRRDGDEWRIVRTQSQSHQT 271 PEEDEAKRDIKDIARRFYEALNNKDLDKAASLFHDDAQFHFDNTQRTYDKEQFREWVKKMLDQDWQMHIDSIETRVDNDGTYRTTVHVTIQNSTSNQTQHVTHHWVFRKEGNKFKVVELQERTDST 272 PSKKDEEDIRTWVRRFYAALNNKDLDAVMSLYTPGSQFHFESTNRTFDREEFRKWVEEAMRRDQEFHIKNIRVERDDDDHFTAEVHVEVHNRKTKVTFTVTQHFHFRKSDGRWRLTEDRIRTHEHPK 273 PSKEDQEAIEEWYRREEEAFNKGDLDTWASLFHDGSTYHDETRNQTYNKEQLREMFKKLFDQGWQMHIKHIEIRLEDKDTFTVRVHFEFHNKSTKNTFHVDATDRFTKSDGRWKLTERRERRHEQPT 274 PSEEAQKEIERIIREMYEAFNKGDLEAIYSLLAPDWTFHNESNNQTYNREQFKEMVEKLIKAGFKIDVESIEIRAPDKDNYTARVHVTVTNKQTKDTFKTTDTHHFRRSEGTFYLLETRVTMDRHPT 275 PSDEDEREIREWYKREAEALNSGDVDAWKELFHPGAQFHDQTRNQTFDLDEMREWVEKMIRAGFRFHITSIEIRVDDKDHITVHVHFQVHNEKTGDEFRFDSTDHFRKSHGRLRLTERQIRTEEYPS 276 PSEEQQEAIKEFKKRFYEALNKGDLETIKSLMHPGATFHFESRGQTYDREEFIEIVEKLIRANFKFQLDSVEIRKDDEDNITVHSTVTMHNDSTQRTFHVDATDHYTYSNGELRLTHSRFRTHEQPT 277 TDKEQEEKIREWLNRFYEALNKGDLDAIDSLLTPGWTYHDKSRNQTYDKEQFRDMVEKMMRNNLRIEVTSIEIRSDDDTTATVTVHVHVTNDQTGTQFDVTDHHHFRLSTGELRLVETHFETHSKPT 278 ADPSDQEIVKQLVERLFEAINKGDRDTIKSIYAPDAQMHISQEQVTFDTLEEIAEWLVKWSSRYDIQIDSLRIELHGDYVHVTVHVTIRQRGTGKTIRVTSHITFDKNGWKIKREHVHFDNGE 279 MSEDEMREAIKEVKRQLIEAMNTGDLDTLRSLFHPDATFEHSSGQQYDLEEFLEMVKKLNENNVRIELKEMHIQIDSDGRHVHVTVHVQFHNATTKQTYKVTAHDRYRFDGDTVKIVETTFHHHPT 280 TDDEEAEKKVRDWFREYARAFNEKDVDALASFYHPDARLRDPNGRDYSYEEIREWYERVLSNDAQITIHSMEIRFDSDGHHVTVRVTMTFHNSRTGETYTVHAHFHFRFNGDTLKLVHVQYHHHST 281 PGEEEAEKAVREVLRRLFEALDNKDWKTLSELYDKDATFHHTDHGETQTYTKEQFIRRVRSNKDIQTAHHMKSIEIRIDSDGHNVTVTVHVEVHETRGDKTDTITVTRHFHLRLEGDSWKVKRDTSHRDSS 282 PGEEEIKEAAKELLRRFYEAVDKNDIDTLRSLLDKDWKYHETRDGKTETYDADQFLERIARNKDVQVHREIKSIEIRVDSDGRTVTATVHVQVHEHHGDKTHTVDVTDTHHLRYEGDSFKIVETHAHYDSG 283 PQEEEIKEAVKQIVERLIEAINNNDWEKFASLYTDGSTFYLSQTGQHYDLEQFIEWLKQMASTGFQIEIKSIEIRINGDSREATVRVHFTLHQTRNGQDYTIQVTSEIRIRQDDSTFKILSERVHFSDS 284 MSEEELKRAVREVDERRFEAFNRGDMDTIRDIVHPGAQYHDASKQRTFDKEEYLKMLEELLSQDVKIQIKEIHIEVKDDGTVTVTATVEVHRNHDNETRTVEVHYTIFYRLQDGQWKIVEMRESTDSGE 285 MSEKELEEAVRDALRKFYEALNNGDWEKVARLVHPGAQIHFASTQRTYDVEEMIEWVKKMFSNDTEIHIDSIEIEIKDNGEVTVHVHGQMHTNHDNRTITARVTDTYHFRLSNGRWKIVELHSTIDNGS 286 MSEKEFKEQIREWVQRWVELFNQGDADAMKSLYADGATIHFSATQQDYSKDQFREWVREMFEADTKMQVDSIEIHIYDDGTVTVHVHMTLHTHHPDRTQTVQATFTFHFRFENGSLKLTRQEVTYDSRS 287 MSEEELKEAIKEIKERLARAMDSGDADTFASLVHPGAQFHDERTQQTFSIEEMREMIKEIAKSDTKRQIDRIEIQIYKDGEVEVRVHVTVHTHHDNETKTQWATYTDRYVFQNGQVYLTESRVTYDSQS 288 ASEEEQREAIKEMIKRLVEAFNKGDADALKRLFHPGWTYHNNAEQRTFDLEEFREWVRKVFSQDTKVQITSIEIEVKDDGRVTVHVHVKYTTHHSDQTRHVDVTETHHVEFHNGQLRFVETHVTWDSGS 289 ASEEEQREQIKEWIKRFLEAFNNGDLDTLKKLFHPGIQFHFSSEQRTYDLEEFIKMIEELLSQDTKVHLHQVDIEVRDDGTVHVTAHWEFRTHHDNKTKTVRVTTTFVFEFHNGSMRLVEVRITHDDGS 290 DEEEIKKQIKEILEQFYEAFNKGDMDRIRELVHDDATFHNQSDPKTYNKEQFLRMLEELFKQGVTMEIKSIHIDVKSDDAEATVHVQFHRTHGDETQTYDVTHHWRFRRFGDEWKIVEVHERTHQT 291 DEEEDKKEIKEWLERYYEAFNKGDMDALRELLSDDAEFHNQSDPKTYDKEEWLEMLEKLWKQGTRMQIDSMEIDPGSDTLTVTVHVTVTTHRGDKTRHTTFTHHWHFRLEGDSWKLVRVEERTHQR 292 TPEEIEKAMRDIKRRYVEAFNKGDMDTISSLLSDDAQFTFSSDNRTYDKEEYLEMIKKLLSNDAKVEIKEQHIDVKSDTVTVETHVQIHVTHGDETRTYDITTHDHYERRGDQWYIVHTTITTRQT 293 DEEEAREAAERIIRALVEAMNKGDLEAIMSYYDDDATFTNASNNTTFDKEEMKKWFKDFFSSGTQVQIDSIEIHVHSDEVRATVHLTMHTHHGDKTRTVHYTSHFVLVRKGDEFKIVHEKLQSDQA 294 TPEEIQEQIKEAVRRMFEAINNGDADAVMELVHPDATFHHESNSTTYDKEEFRDWVEKFFKAGMRIEVKSLEVDVKSDTATVTVHWTVHQHNGDKTRTVNATTHIRFTRFGDEWKIIEVRIRTHQT 295 PDPSDQEAIRQWFRREVEAINKGDIDAWASLFHPDSKYHHQSGQTYDYEQFIEMFERLMKTVDVKIEIKSLEIRQTKDGNEIEVHVHVTVHENHPNKTRTVQVTQTDRFEKRGDQFYLAERHTHTDGE 296 IDPSDEEAIRQLIERFYEAFNRKDWKAVADLVHPDATYHNSDGQTYDWEQFVEMVRRRIERFDIKMEIKEIRFQPTPDGNEITVTVHVQVHVTHDNETRTFQATHHWFFRKIGNQWYIIRLEERRNGT 297 ADPSDQEDIKRIKRRLAEAFNKKDWEAIARIFHPDATFHHENGQTYDWEQYVEMVKRFLEKFDARFEIDHIEIRLDKDGNDFHVTVHVTVHTTNDNQTRTVHITQHDRYRKEGDQWYIIESQTHTSGR 298 PHEEEQKDIKEWFKRYAEAWNKKDWETLARLFHPDATFHHQSGQTYNWEQYVEMVRRFLSTTDSKIQIHSLEIRLDKDGNKITVHVTWTMHTHHDNQTRTVTGHTTFFFVQEGNQWYVKEVRTTTDGS 299 PHEEDQRELEEIIRRYYESFNQKDWQAAADIVHPDVKYHHQSGQTYDYEQLVEMIKRLFENADVHIEIKHIEFRQHKDGGRATVQVHVQVHVRHDHKDTTVDVQHHWVFEKRGNTWYIVSVEERTDGS 300 PEEKEIEEAAREVIKRFYEAFNKRDMDALEELLHPDARFHTYQGETYDVKQFKEMVERLLSLDIKIDIKSIQADTFKDGTATITVHVEVHVRHDTSTHTVRVTHTWHVELQPNGELKIKSLQENRDND 301 PESEEIQEQIKETIKREAEALNKRDIDAWASLFHPDARYTENNGRTYDYEQMKEMVERWLSTDVQVEVKSIRIDDTKDGTGTGTVHITFTQHHDTETRTVRVTYHIHMERDHNGEVYIKEKHARRHDS 302 PESEEIEKQIREWLRRFYEAFNKRDLDAIASLFDDDWRYYNHSGQTYDKEQFREMVEKLLSTDAQIDIDSIQVDDTKDGTATVTVHLTVHERHDTEQRTVRTTDHHHFRLQPDGQLKITHTHEHRDND 303 PESEEIQEKIRQWLRRFYEAFNKGDWEALASLYAPDARMEHNNGQTYDYEQIVEMIKRLLSVPIKMEIKRIEIESTKDGTGTVTVHVQVHTHHPTSTHTVDVTQHIHFEVQPNGELKIKRDRESSHNS 304 PEEKEIEDLVREWLRRFFEAFNKRDLDKLKEMFDDDWRFHNANNQTYDRDEFKDWVRKLLSVPIRVQVDSIEVKDVKDGTATVTVHVTVHEHTPTKTKTVRVTEHHHFRVQPDGSIKITRTEVRHHDS 305 PEDEEIKEAVKQVVERFFEAMNKGDLDELKSLFDEDWRYHHASGQTYDLEQFLKMVEEFHSVPTRIQVKELRIDDTKDGTATVTVHVEVHETHKDSHHTQRFTEHHHFERHDSGEFRIVETRTQTDDS 306 PEDDELRQAAREIIKRLYEAMNNNDLDTLRSLFAPDATFHHNKGETYDLEQFLEMVERLASIDTRIQVDSMEVKDTKDGTATVEVHVTITQRHDTSTHTVRFHHEWHVRRRPNGQVYVKELRIQSNDD 307 PREEELRRQIREFIKRLVEALNKRDVDHWLSMFSDDWTYHDSRDKKTFDKEEFAEMLKELLKFPFQIQITSIEIRIYPDWRTATVHVTVTLTVHRGDETRHVNATETHHFRFTENDLRIKETRVNYSGEQ 308 PEEKEIEEEIRDVDKKRVEAFNNRDMDTWKSLFHPDATFHFYEDKKTFNLEEVVKMIKELLSFEMRVEIKEVHIEFEPDKSRVTVTARVQFHVTRGDKTVTVHVDYTFHYQRSKDNWKIVEVRIRTSGDQ 309 PSKKQQEDIRDIVRALFEAFNKKDWEKMASYYDEDARITFTSTNQTYDKEQFIRIIQELLKQDYHLHVHSIEIRLGSDNNTVTVRVHFTMTQQTTGTTFEATSEIHITREGDQWKIKEEHITMRSQPT 310 PSKEQQEQIKELKERFIEALNKGDWKAIAELMHPDAKYTDNSTNKTFDREEIEELVKKQFNAKLHFQLDGIEIRLDPSNTDIRVTVHLTVTQADTKTTVKATTHDRYVRFGDEWKIVETQTTRHEQPT 311 PKEEELKRQVREFDERRIEAINRKDLDKVKKLFDDDVTFHFAATQQTYSAEEFLEMVKEWLDNDVKIDIRSIHIQVVGDGTVHVTVHVTMHVTRNGKTDTVHVTYTITYQLKDGSWKILRMQVHIHPT 312 VSEEQVEEWVRRFFEAVNKNDRETLKKLFHPDVTFHFNEGDRTITYTTLEEFVEWLEKFAQNYHFEIKSIEIETKGDEVTVHVTWEVTNRTQGHTYEGHTTVRFDKDGRVVEVRFTFDST 313 MSEEQVKEWVKREVEALNNGDLDAWASMFTPDVTVHFFHGDTTYTFKTLEELKEWLEKWLRNFQIHIKSIEVQTDDSSVTVTVHLQVTERRTGRTFDVTFHDHFDKDGQLVERHVHFNHS 314 PSKEQIKEFVKREVEIFNQGDLEAWASLYAPDATVHFYHGDETYTFTTREELKEWAEKFWRSHTVQLDSIEIRHDSDTATVHVHLTVHNRDTGKTAKVDSTVHFDHDGKLKEKHVRFRDT 315 PSQEEIKELVKRFYDALDSGDMDTFDSLIAPDWTYHYYQDNTSITFKTREEFKKWVNEWASFVHRTFRSMEVRKDGESVTVHVEVQVTDSRTKQTFDTRDTHHFDHDGKLRETRSQYHST 316 PSKEQIEEWLRRFYEAFNKGDADAAKELMDPDSQMHVQEGDETHTMTTQEEIKKWIEEFAKDHEIEIHSIEIRHEDSSVTVTSHVTVHNRKEKQTYEATETHHFDKDGRLVETHTHFHPT 317 DTPERQEAVRQLIRRYFEAFNSGDWEKLASLYTPDSRVHNPATGTTLNYEQVVRWYQKQMSRDAKMELKSVEIRINDDGTVTVRVTFTMHFTQDGQKYTTHIHATFHVERGDSSWRFKEVRFQRDTRG 318 DDEKNEEDVRELLKRFYDAINKGDLDKIRSLMDEDWRYTDASRQQTFDLDEFLDMIKKMHSNDTKVQIHSIEVEIHDDGKVTVTVHVTFHSNHNGQTYTTHVTDTHHVDYGDSSWKFVRTQTHRDTRG 319 DDEEAEKAVKDWLRRFAEAFNKGDMDTLKELFTDDWRFTDARTGTTIDLDQFMDYLRKLLSNNARMQIDSVEIHINDDGTVTVHVHVTIHSTHNGQKYTFHVTETHHFRRGDDDWKVVRTQAHTESRG 320 DDKDDEEAVRQTIRRWAEAFNKGDADALYELYDEDSTIHDPSTQQTYNVDQFKEMVKKLQSQDVKLQVHSVEVEIHDDGSVTVHVTYTVHSTHNGQPYTVEFHTTFHVEKSEDRYRIVEQRDSNDQRG 321 MSEEELKRAIKELKKRLVEAMDSGDWETVKKLFDDDVTFHDPSKNQTYSVEEFVRMMTKLASRGIHRQIDSIHIEFSDDGTAHVTVHVTVHERHGDKTHTFTATAHDTYRFENGSLRILSSTFNTDS 322 DKEEQKKQVEEIVRAFYEAFNKKDLEKIRRMLHPDATYHQQRGNQEETYDYEEFIDMVRERLKFDFRIEIKEIRIQVLDDTQIEVEVHVTFHWTHNGKTKTVDVTHHWVFRLTDTGWYLIELHARHTEK 323 DFPKAEEDIKRLKKRFVEAMNHNDWEKLARMFHPDAQFVFINGNQREQYDWEEYVRMVQELAKFPFRIEVKSIEVRKVDDTTYTATVHMTVHFNHNGKTNTVTVTQHDVYRQEKDGWKVLETQEQHDQE 324 DEPEQQEQVERVIRRFYEALNHKDLDTVRELIHPDATFHTFRGDEQQTYDYEQYIRRIEEMAKFDFRIEIKSIEIRVDDKNRVTVTVHVQVHVNRNGQTHTVNVTHHWTLQQTSTGWYIIEVRSRFDNS 325 DKPKAESDVRETVRRFYEAMNKRDLDKLRELLHPDAKVTQYEGDQQKDFDYEEFLKMVKELASIDFRIEIKRIEVEQKSDNEFTVRVHVELHFNHNGETHTVTATHEWHLRRTSTGWYIIEVRERRDQQ 326 DEPEVREQVKEFKRRLLEAIDKGDWEKFARLVHPDAQFTHTHGDQSQTFDREEVIRMIQEQSKFPTAHHMKSIEIRKVDEHEFEVRVHVEVHENRNGQQHTVTVTYHDRYRRDSTGVKLIETQTRFTNQ 327 DQPEQIEHVLEIVRRFYEALNHKDLDKIRELIHPDATFHHTHGDKTETYDYEEFLKMVREMMKFDFRIEIKSIEVRIDSKNEITVTVHVEVHETHNGEKRTVTVTHHWRLRRTKDGWYIIEVRETRDQQ 328 MSEEEQKEAIKEFKKRVIEAFNKGDWEAVRRLFTDDVTFHHDSGETYDLDQFAEMIKKQKSTDAKMELKEVRIQVDENNTVHATFHVEVHRRHGDKTTTIEYTSHDRYRFENGQMKIVETHIHSRQRQ 329 MSEQELEEAVREWLERYYEAYNKGDVDALRELIHDDWRNTEENGTTYDKEEFLKMVEEQMSNNTQLDVKSIEVRVDEDGTVTATVHVQMHTTRGDKTHTVDVTETHHFRFKDGQLRLVETRFTHDDKS 330 TSEKEAEEEIREILRRFYEAFDRGDADALMELLHDDVRFHHESGETVDKEEFRERVERIASTDTAHKIDSMEIRFDSDGRATVTVHVTVHQRHGDKTVTRQVTHHWFFRKKDGEYYIVEVRIHTRQED 331 MSEEELKEAAKEFVRREVEAFNQGDADAWASLFHDDVQFDHARGTTYDKEQMKEMIERLLSNDTKVQIDSIEVRIDGDGTVHVTVHVTVHTTHGDQDHTYHVTEHITFRLENGRWKVVRKEIHTNQTQ 332 MSEEELRRAVEEWLRRFYEALNRGDWEAVAKLVTDDATFHFDEGQTYDKEQFVEMIRQMLSFNVQIQIDSIEIRVDSDGTVHVTVHVTVHETRGDKTVTVHITETHTFRFENGRLKLVETHIHTDNTK 333 PSSEELKEAAREVIERFYEAVNRNDLDKLRELIHPDATFTHESNPQTYSAEEWLKRFEERVRAGAQLHLQIHHIEFQTDDNGEITVTVHVTVTNSQRNKTVEVTHHWFLRNINGQMYIVHVRERTDNKE 334 PSEEELRELVKEWVRRYFEAWNKNDWEKLKSLFDDDWRFHDSDENTTYDLEEWVERFRQYVSSGNDTQLQITSIEIEVKPGGEVTVTVHYKMTNKKTGTTYDVTEHHRFRNENGSLKLKETRTTTDRKE 335 PEKKKIKEDIKELIRRYFEALDRGDWEELEKLMDDDWRYHQNYENQTYDKEEFLRWVEKMASQDTAHHIKSMEIRVNDDNTHVTVHVHVEVHHNRNGKTKTVRVTETHHFQRKGDTWKIVETRVTHDDT 336 PEEKEIREQLKEIVEKFFEAFDKGDVDKLKSLMAPDAQFHFSGENQTYDLEEFLERVQRFASQGTAHELESIEIHVNSDGTHATVHVHWTLHVTRNGETRTFRGTTTFHFQRRGDSWRVVEVEFRVQPT 337 PEDRETIKELIKRFFDAINNGDRDTLKELLHDDAQMHVAAEQRTFDTKEEIVRWLVEMASTMHIEIKSIEIRKDEGDQWKVTIHWTGRRRNEPSDFDATTHMRFDKSGKIVELRFHVHQT 338 PEQEERIKEIIERFYEAINHGDMDTLRELLAPDWQFHDNANQITFTTLEEFLQWIAEWAKNFRIEIKDLHIQPGDGDTVTVEVHYTIHNKTNPTTYTATDTHHFDKNGKIKETRSTVHQN 339 PSEEQQEKIKELKKRLVEAFNKGDWKALRDLFHPDVTFHISDNKTIKTLDEFIEWVKKFFQNIQLHIKSIEIELKDDTTVTVTVHVEIHRTRGDKDDTATVTFHDVYRFENGQLKITESEARFQPS 340 PKEKEQIEAIREILRQYYEAWDKKDLDKLRELLHPDWTYYDSRTGQQYDREEYIKMVEEMLSKFKDVRHEIDSIEFEINGDEVTVHVHVTVTFNTGNQQHHVQVTETHHFRQEGDRWKIVRTQTTTNNTR 341 PKEKKMEEQVRDWVRREIEALNKGDMDTWASIFDPDVTFHFSDTGTTYDRDEVKEMFERFLKRFKDTRIEIKSIEIHIDGDHVTVHVTVQVHVNQGDRTYTNHYHQTIHFRFEGDQLKITEKHVTTDNSD 342 PKEQELEEAAREWARRFYDAIQKHDLDAIASLYAEDSRMHNSDTGRTFDREEIIEMVKQFLERFKDTRVEIKSMEIEIRGDTVTVTVHVTITFNRGNQQYHVNFTQHFHFQREGDEFKLKHDEASTDNSD 343 PGEESAKEAVKQFFTRFVEAVNKGDMDKVRSLFHPGSTFHHDRKGQTYDLDEFIDIVEKLAKAGMQIQIESIHVEQLPNGQYRATVHWTATVHHNGRTYTFHGTTTVRLEYHGNEWRVVELTVNIDST 344 PGDETAKEEIKRFLKQLYDAFNTGDMDKIKELLHPGWKYYDATKNQTYDKEQFLEMVKKLLSQGVQLQIKSIEIDKDKDGGWTVHVHVTFTVTHNGENKHFDATETHFFRFEGDTLKLVETRVNEQPS 345 PSQEQQEAIKDFKRRYVEAFNNGDLEKLKELFHPGSQFTHESHQQTFDREEFIEMLEEMLRHNTKIQIDEIRIELKGTHEVTVTVHMTVTTHHDTETRHVRITQHDHYRLENGTWKLVRTHVETHEQPS 346 PSKEAEEAIREWIKREVEAFNKGDLDAWVELFHDGAQLHVEATQTTYDKEEMRDYIRKLLSQDTKIQITSIEITQHGEDEYRVTVHVQVHVHHDHKTVTTDVTATFFIKQQDGEFKIVSKHVERDTKDT 347 PPEEEIAEAARQIVRRLVEAFNNNDMDALEELYHDDARIHQPNGETYDKEEFKEWVREFIEKNNAKVEIKSIQVQSIDSNGEITVEVHVTVTVHRNGQQFHSDVTSQFRFRKKDGSFKILSEHIHTDDKD 348 PEEEEAKEAAKDTVRRWAEAFNNNDLDKLEELYHDDARIHHASGQTYDKEEWKRWVEEFISKFDTKIEIHSIHIVQIFSDGTITVQVHVTLHANHNGQTYTVHFTYHFRLVKINGDWKILRQEERRDDID 349 MSKEQIKELLKRLYEAFNKNDLDKLRELFHPDATIHFSRYGITFHDLEEFLEWVERFIKTFNVHIQITEIRIDDTELRVTVHVEVHFHHPGETRTVRVTEHHTFRDGRLVETHTHFQPQE 350 MSEEEIRELKKRLAEAIDKGDWETVARLMTPGATFHFQSENYTATDLEEFIRWVQEWFKRFPDVQRTLESIEVNGHTVTVHMTVHFHHKDETRTVRVTVHDHYRGNRITESRFHFNEEK 351 TGKDHIKEILRRFYEAINRNDLDALAELFHPGAQIHFWNGTTLHDLEEMRRFFKKLFEDLEDVKIQIEEIHFDGSTATVHYTVHVHHSSGKTVTFRGTDHFRFRNGKIQELRSHVDSTHGS 352 PSEEVKEIIRRAYEAFDKGDWETLRRLFTPDAQFTTHNSDGSTIHVTTQDEFREWFERVKSTFTEMHREIKSVDATGDTVTVHGTVHFTRPDGQTYTIHVTHHWTFENGKIKEVHEHIDYGG 353 ASQEEIKEFLKRFYEAVNRGDLDTAHEMLHPGWTFHHASGETLKSRDEVRKWLEDFSKTYQLEVTSIEVHQNPDGTYTAHVHVNVTNKNTQTTITFSDTHHFDRNGKLVETRTQETG 354 TSKEEIEEIIRQMYEALNTGDRDAIKEYFHPGAQLHIWNGQTFDGLDEIAEFLVQFASEYQMQIDSIEIHKNPDGTYTVHVHVTVTNKKTQQTYRQHHTWHFDHNNKVVEVRVQMTG 355 TSEEEIRRWLKEFYEALDNGDLDRLLELIHPGATFHITDGETLTTKDEIKEFLREFFERFSDLKHDITQIDIDGNTVTVHVQVHVHHPNKTVTIDITEHHHFKDGKLVETHVHIDQKDN 356 PISEEQIREVVKRLFEALDKGDWETFERIYTDDSTIHIDDRTFTDKEEFLRWFEQFHKTFKDVQHDIESIEIRGDTVTVRGTMTVTHGDKTQHYTVNSHFHFKDGKLKSERIHRHRQPR 357 PTEEEIKQLVEQFYESLNRRDLEKVASYFHDDATMHIDQGTTFTTLEEIKEWFERFLKRFPRFRIEIESIEFRGDTVTVHVTVQHHRRDTGKTFHTRVTHHWRFDKDGKIVELHIHSDTKES 358 PASEEIIRELVKRYYEEFWNTGDADRAAELLHPDATIHYYNGTTLTTMDEIKKYLEEFLKRFSRVHVEIESMEVRGDEVTVHVRMTTHHGDQTYHYRITHHWRFKDGKIVEVHIHENQE 359 DELKEIINRILKAIYDSKDPKAARDYFHPDATITFKSEQQTYDLDQYIKWFEEFMRTFPDATFQIDHIRVDGDTVTVHWTVHVTDQRTGETYTTHATTTFHFKDGKITETHYQLHTQKT 360 PSRERIKELIKRYYDAYNNRDLEALKEYLTPDATMHIDATKITFTNLEEIEEWIRRFLSRYKDFRFEIDRIEIDGDTVTVHVTVHFTHDNNQTFTYEVTEHHHFSDDKIVETRTHVHERK 361 PEEEEIKEWVKKYIEAIFNTKDIEVARQFLTPDWKFHNNSEQRTYDREEFAEMLEQFQKKFPDAKVQIHSIEIRGDTVTAHITVHVTDKDKDVTIHVTEHHHFKDGKITETRVQEHTQE 362 PSEEEIKELLKRFYEAFNKGDWETLLDLFSEDSTIHFSNGETLTDLEEIRRFFERVLRNRVQIEVKSIHIEPGAGRVTVHVKFHQNRDGRTYTFDVTEHHQIRGKKIVETHFNWDNHP 363 TSQEEIKDLIKRYYEAFNRKDLDALSELMTPDGQLHIEYQGITFHSAEEIREWAKRFIEKHSRFHLEIKSIEVRGDTATVHVTAHFTDDDTPTDVTIHITEHHHFKDGKLKETHVRSDTQQN 364 MSEEEIRQWVRRAVEAFNRKDFDALKEIYDDDWQFHYAGEQRTFHDIEEFLDWLRKFFSEFSEVHMEIKDLHIDGDTVTVHITVHVHHEEEPKTTTIHQTEHHHFRNGKITETEVHFDEQET 365 MSQEQAEEIVRRLLEALDKGDFEALKEIYDEDAQFHFAARGETLHDLDEFIEWVRRVKSQFSRTAHTPESIEVNGNTVTVHVHAQFHHSEEPKTVDVTMTRHFRFRNGKLVEDRVQMHEQPT 366 PSEEEIKEWKKQFVEAFDNGDMDALARLMHPDATLDVSNGEQLTTLEEIREWFERFFKTFTSQHTEIEIHFHDDGRVTVHLHVHFTQNGKNITIDVTVHDRYEGKKLTESRFHFHQRD 367 ASEEEIRELLKRFYEAIDKGDVDAIMRILHPDATFHDSNGETLTTKEELKEWFRRFFESTGMQRTKLEIHIDDNGTATVHVTITTTHNGQTFHIDFTEHHRFKDKKIVETRQHSHQKD 368 MSEEQLREFKKRFMEAFQRGDLDALAELVHDDATFTDQQTNTTFTSKEEFKKWVEEFLKNSEFRVEIHSIEIRGDTVTVHFTVHVTHGDEHRTIRFTTHDRYTDNKLTETHFHFDNGG 369 PSEEELRELAKRFYEALNKGDLDALAELYSDDATLHAQQDNITFTTKDEMKEWFKKFMESVDFRIEVKEIEARGDTVTVHVTIHFTHGDKHQTIQFTHHWHFSDGKIKETQESVDTGG 370 TDEEQIREFLKRFYRAFAEERDANTVASLLDEDSTFHVQNGITFNNQDSIREWFERLIKSVERFRVEIKSIEVRGDTATVHVTIEMHHGDETVTVHVTHHWRFKDGRVVEVHVSTDERR 371 ANREEIERLKKKAIEAFWRHKDANIFADLMTDDVTFHISNGTTLTTREEVVEWFQRWAETNQRFHIEIKEQHIHGNHATTHVEIHVTRGDQDYTIHVTQHDRYKDGKVTESHIHIDERE 372 MSEEQIREFLRRMYEAMDKGDLDALRELVHPDATFHFDSGETYNDREEFIEWVRRWQSQFPDVRRQIHSIHIDGDTATVHVTLHVNTPGKTKTVTATHTWRFRDDKIVEVHFHSDDQK 373 PSQEEIEELVKRLAEAFDKGDAEAVRRLLHPDVTIHFSDGETLTSWEDIKRFVEKFKSQFPDVKRDIESIEVNGDTVTVHWTLHVNTKDSTITNTGTTHIRFKDKRITEIRFHVDKQN 374 PSREQIEELLRRFYESLDKKDADAIKELFHPGATIHFSDGVTLTDPDEIKEWFAKWLSKFPDSRHEMKSVEFHGDEVTVHVQVHLRDDSRDQTIDVTHHWRFTDNKITRLEARFDRKTS 375 ASEEEIRQWKRRWVEAFNNNDLDELKSLWHPGATMHISRGITVTDLEEFREWYERFAKQFPDFHIEIKSLEVRGDTATVHLTLTLNHDNQTIHVHFRVHDRYTDKRLTESHFHYDEQRT 376 MDESELREIDKRRIEAWNNRDPDKLKEHFHPGATVHFSEGVTLTDRDEIKRFFATLLERFKDSRIQIDEQHFDGDTVEVHMTLHFTHDNQTITVHATYHVHYKNKRLVRMQVHRDNRTS 377 DDESQIRELVKRFYEAFQKGDLDALSEIVHDDAQMHISQENTTFNNKDEIRKWLERVLRELKDVRVEIKSIEIRGDTVTVHVQFHVTHGDETVTVDVTDHYRFKDGKIVELRSHVNQRRG 378 DDEEEIKETKKRAIDAIQRGDWEALRKLIHPDARFHFASEQITFTTLDEFIEWFRQWFSSVKDVRAEIKEIRIDGDTATVHVQFHVNHGDKTTTIDATFHDRYKDGKLVESQVHFDQKDD 379 DDESQLRELVKRFYEALEKGDLDKLSKLVHDDATFHFSSEQITLTTKEEFQEWVERWIKRFKDFRFEIKEIRVHGDTVTVHVQVHFHHGDETVTVDITDHYTFKDGKIVEVRSHVDEKSG 380 DDESQIRELVKRFYEAFAKGDMDKLRELIHDDATMHLSQKQITAKTKEEILKLLEELIRSLKDFRVEIKSIEVRGDTVTVHVQFHVTHNTKDVTIDVTDHYRFKDGKITELRSHSDTKTD 381 SVSEEQIREFVKALMEAFDKNDWERLARLMHPDATFHHSDQTYPLSKEEIEEWIKRFLKSIKDSHHQIESLEVRGDTVHIHWTVELHDDSRTVTVHATTTIHFKGDKVTEIRTHYDEQPT 382 PDEEKIEEILRRFYEALDKGDWEKLADLLSDDWKYTNGNETRPGDRDEFIEWVKRFKSQFPDVKRDIRRIEIRGDTVTVHVTIHVNHKDKTKTVHVTDTHHFEGDRIRETHGQTDNQ 383 PDEEDIKQILKRFYDAMDSGDAEAAASLFSDDVTFYNGNQTFNLGKEEFKEWVERWFSQFQDTHREIKSIHIDGDTVTVEYTVHFNHKDETQTYRYQDHFRFEGKKIKEVRSRRDEQ 384 MSIEQFVRQWFEAFDKGDVDALLSLYHEGVQIHVTHSSGNTITFDDKDEFREWYTQWIQRWDDMSRQIESIEVRGDTVTVHATVHMTHKTGQRYTVHVTAHFHFRNGKLVEQRTTFDEKKT 385 PSQEEIKEIVIRMIEAVWKTGDWRIIERYYHPGATVHVHHSDGTTITFTDLEELLEWWERMMRSLKRVHVHIDSVEVRGKTVTVHVTIHVHQGDQTFTFHVTSTFHFDDNGKITSEEVHINQQD 386 TSEEEIRELLKRFYEAWDKGDWETLVSLLDDDATYHHSNGQTFHNAEEFTEWYKQMMSNMEIHREIHSIEIDGDRATVHFTVHVTHDNEDRTIQGTEHHQFKDGKIVETHVHLDTKNG 387 PGEETIKELVKRFYEAVDNGDWDAVAKLLTDDATFQVAKEGRQFNDKEEIKEWFRKYWENYDVQRHIHKIDIDGDTVTVHYTVHRTHNGETQTYTATDHFRFRNGKITRVTSHITG 388 ASEEDQEQAKQMIDTYYEAINTGNAEEAVRKLFDDDATMHNDGQQFNDKDEMIEYIKSIGEVHIEIKEIRITVNPDGTYTVTVHVTFHHGDNTVRVTHHWFLEKENGSWKIKELREHRDQE 389 SEDEEAAREVVRQYFEALNHNDVDALASLYHDDATMHISEGRTFTTREEIKRWYERFLKESDIRLEVKEIEIRIHDNGEITVHVHVQVTHRETGRTVTVTFTFFLVKIGNRWYIKEVRAHFHQN 390 PSDEEAIRELKKRFIEAFDKGDLDAIAELLHPDATMHIQNGRTFTTLEEIKEWFKRLMDNMTTAHQIDSIEIRHNDDGSITVTVHVTVTFPETGTTVRVTFHDFYDKRGFKIVETHITWDQNE 391 PSDEEVIRDWYRQEAEALNNRDVDTWASLFHDDATVHFSNGQTFTTKEEYKEWARELLEKFDFRIQIDSLEVRTHDDGSITVTVHMTVTYNKTGTTYHFTYHDHFDKRGFKLVERHEQVHQRN 392 MSDEEVIRDLKRRFVEAFNHGDADTMASLFAPDATMHIQNGITFTTREEIREWIEKLLKRFDARMQLDSIEIRFYSNGTVEVTVHVTVTRNETGIDYTFTFHDHYDRSSFQIKRTQVTWRQHD 393 PFEEQIKEFKKRFIEAFNKGDWKALLDMIHDDARFHFSQENVTFTTKDEFREWFERFISNSDVKIDLKEIHIDGQTATVHFTMHVNHDSRTFTFEVTVHDRYKDGKLVESQFHIDEK 394 PTEEKIRELVKRFFEAMDKGDMDALKSLLHPGATMHIDEGSTAHDLEEIKEYIARWLSDFRDIRRHLESIEIRGDTVHVHWTATFHHKTGNTYEFRGTTTFHMRGDKIAEIRFHTNQQPT 395 DQEEIIRQLLRRFFEAINHGDMDTIESLMAPDWTFHYFSGQTFTSKDEFKEWFRRFFESFKDMRIEIKSMEINGDTVTVHVEVHVTHPTGKKITYHVTEHHHFRGNRIVHTQVHERQQET 396 MSEEEAREAVKEMLRRYYTAWNNNDMDKLEELITPDARFQDARTGREFDLEEWKEMLERLYKTFPGVQIQIDEIRIEIKDGTITVEVHVTMHYQSKKQTTHYTHFWHIELTDGGWRITRVTVQSDSG 397 PSEEEVREAVKELIRRFIEAINKGDLDALFELYHPDARLHISETGTTYTREEIKEWFKRWFETFPDTQVELKSVEIHVKDGTGTVTIHVEVTYRRDPKTVKFDSHIRIVYTDGTFKIVEEHIHTDSG 398 ASEQELKEQIKEIKKRFAEALDNGDWDTVRKLFHPDATLHISDGRTFHSLESIVRYIQELASSNLTSRHEIKSMEIEVKSKDHVEVHVHVQVHYDQQPRTVHITFTDVYRYTDGGMKIVETRVHTDH 399 MSEEEIEREIRETLKRYFEAINKNDVDKLFSLLDEDWTYHHSSGETITTREEFVRLFRQLATRNNDTRIQIDSMEVRIDSPDHVTVHVHVTMTNKYEKRTYHVTETHHFRRTDGGFKIVETRAHFDH 400 MSEEELEEAARQIVRRYIEAINRNDLDAIASLYHDDARVHYWNGQTFTTREEIKEWFERQIKSGAQVHLQITDMEIRIVSKDRVTVHVHVQIHYEQNPRTYRVTSTFHIVLTDGQWYIIEERIHLDH 401 ASEKEAEEAAREVIRRYVRAINQKDLDTLKELYAPDATMHHANGRTFTTLEEIIDFFKKQIDNNNDTKVEIKSLEVRVRSKDTITVTVNMDLTNKLNKHTIHVQSHFHMERTQDDFKIKEEHVHIDH 402 TSEEEAEEAIRRLLREYYRAIDQGDWETLAKLFHDDATYHHANGQTFNSKEEIIRFFKSLFDSGLRTEHQIDSIEVEQKSKDEWTVTVHVTVHIDKESSTYRVTEHHHFRQTDGDFKIVETRVHIDH 403 PSEKEIEEQVREVIRRYFEAWNNNDFDTLHKLLHDDWTYHHSSGETITNREEFIKRIRELIKNGFQIQLEVKSLEIRVESKDTVTVHVHVTLHFEKHPRTVHVTETHHLRLTDGGWKIVETRAHFDH 404 MSEEEIKEAAKEVIRRWIEALNKKDLDTLRELYHPGATMHQSNGQTFHDVEEIRKWFEEFMKKFDFQLHLTGIEIEVKDGRTVTVHVHIQFTDSKTGTTVSVTSTFHLEVKNGQLYITEQRNHRHQT 405 TSEEEIREVLKRFYEAFQEGDVEKLLRLMHPDAQMHVSEGITFNNWEEIKEWLERFFKRFGDMRVEIEEIRISNGTVTVHVTFHFNHKDGTVTIRVTDHYHFKDGKITRIESHHHPQD 406 PKEEKLIEIAKEIIRRFYEAFNRHDFDEIIELLHPDWTYHHSSGRTFTDPEEVKEWIRRFLSNDNTHIEIKSIEFRTGGDTITVHVHGTLHEHRKDHTQTTHFTETHHFQQSGNDVKLVETRTHWNSDGS 407 PKEKEMEEAVREFLQREFEALDNKDWEAWAKLLDDSTIHFADSNTTFTSKDEITEFFRQSLEQFDSEHRVKSMHIEIDGDTATVEVHVEVHFKGEGQTFRFTATFHFTFENGELKLKEKQIHTDT 408 PKEKEMEEKVREIKKQLIEALNKNDWDTFKKLMDDSTMHNPDRGRTFTSPDEIAEWFRRFVETFDVTIEIKSIEIRISGDTVTVHVTVQVHFKGEGQTYTFHFTDHYEVKDGEIKLKSSTIQTQD 409 PKEEEAREQAKEWLKEFYRAINENDMDALKRLMDDATMHIAQFQITFTTPDEIKKWFEEFIKKFRHRVEVKEIRIEVRGDTVTVQVHVQVHFEGSGQTFRFTDTYHFEVQDGQMKIKELRSQIHS 410 PSEEDEEDIRQLIERFYKAFNEGDLDALLSLLHDDWTFHEYNGRTLTTREEFKEWVKQWLSNSARIHITEIHIENKDGDTATVEVHVTVHFNTNNKTKTVHTRDTHHFVRINGQWYIVETRVQVDETGD 411 PSKKQQEDIRDIIRRFAEALNKGDLDALESIYHPHAQMHIYRGITMNSREEIKRWFKEWLSQPFRIHVHSIEIEDKDGDTITAHAEMTVTFTDNGKQKDVTVRRTFHFTLINGRWFLIEDHEHVDNTGT 412 ASKEQQEKIKEIKQRFFEALDNGDWETLAKLVHDDAQFHFAKGETLTSKEEFKEWVKRFASTPTAHHITEIHIENKHGSEIEVTAHVTFHVTHDGRDLTFHVTTHDRYVEENGELKILETRFNFDDTGD 413 PSEEAKEAIKELIRRWVEALNNNDRDTLRDLYHDDAQYHDASGQTFDDREEYVQWMTEWFQKFNVKVTILSMEIRKDSEHQYTVHVTFQFHRHTPSSTHTVNVHSTFRVERHGDEWRIVEQHVQRDST 414 DKREEMEERIRQLKRQLIEAMNNGDADTFISLFHPDATYHHQSGRTFTTKDELKKWFEEFWKKHPTKLENQSMEIQITSEGRATVTVHIQATDDNTGKTVTFTYHDFYQFFGDELYVVRVETQTDE 415 DERKKAEELIRETKRRFVEAVNNKDVDAIASLFHPDATMHHSSGRTFTTLEEIKDWVEKFLKTFDVHLNVDSIEFQPTTPGRMTVTVHITVTDNDTKTTVHITFTDFYQFDGDTVKIVRTEIYVHE 416 MSEEEAREAIKEIIRREVEAFNKRDLDAWASLFAPGATIHFANGQTLTDLEEIKEWFKRFLDHFPSRMEVKSLEIRIVDSTTVQVHVTLEVHVHHDNETKTFTVHATDRFELDDTGFKIVERHVHMEEQ 417 TSEEQIKQWVRRYLEALDRHDIDELAELFSKDWTYHNSRGITFSTLEEFIEWVERWLSQAEDSRHELKSLEIHGDTVTVHVTQHLRHGDKHKTIDITEHHTFKNGRLVRTQTHFDEKD 418 SSEEKIKEDIKEMLKREFEAIDNHDWEAWKSLFHPDAKQTNSDEKRTYDLEEIVEMIRRWLSTAPDSRHDLHTIHIEIRGDQVHVTVHVHVTVHRNGKQYHQTVTQHVVFRRSNSEWKIISKHVTTRQE 419 SSEKENKDAVEEIKRQILDAINKGDRDLFKELFHPDATMHISNGRTFNNLEEILEWFKQMTENNFHFELKSFRIEVHGDTVHATFHVDVTERQTNRTFHVQFHDTYVVFNGSWKIVHTQIHYDNS 420 MSEEEAQEAIRQWKERFVEAINRGDMDALREMVHPDATFHFSDGRTFTNIEEVVEWFKQMFENGIELEIKSIEIHTDGDEYRVTVHITLTERSNNKTVTVTFHDRYRLENGSFKLHESQIHYNKD 421 TSEEEAKEDIKEWFRRFYEAFNKGDWHKLKSFYHPDATMHLSDGRTFTNRDEIVEWFRRLWSNGVTTHIHSIEVEIRGDQVHVTVHVTLTEHTNNKTVRVTQHVTFDLENGSWKLKRDEIRHDKS 422 TSEKEIEEAIREFLRRFYEAFNKGDMDALKSFYAPDATFHVSNGRTFHNPDEIKEWFKKLFDQNVEMEVKSVRIEVRGDTATVTVHFHLTNRTNRQTITITQHFHFRFENGELKLKRDEIRIDNS 423 MSEEEMKEAIKELKRRLVEAMNKNDADKLKEIFHDDATFHGDGRTLKNKEEIAEWFARFISTFRFKIQIDDMHIQFGDGEVTVTVHMTVTFDDTGRNVSVTAHDRYRFTKDDVRIVSTEFRFTN 424 PSEEDEKQIRELIERFYEALNKGDAELIARLLHDDAQLTVNGRTFNSKEEVKEWVKRFFSHSTHIQVESIEITYDKDHITVTVHVTMHDNQTGKTYHVTDHYFFRKTKDGWKIIRVQSHTQQQD 425 PSDEEEIREWLKEFYEAFNQGDLDKMAELVSPDATMHVYNGQTFNSLEEIKEYLERVFKTFPTMQIHVRIVRIEIRGDHATVEVEVTAHVTHDGRHTTYHVREEHHFRKTKDGWKLTETHIHRNQD 426 PSDEEQIREWKKRFIEAFNKKDLDKLRELVHPDATMHVSEGITFTTLEEIVEWLERFFRRFKDVKVSVQIDEIQIHGDHITVHVTVHVTFNHDGEQKHVTVHATDHYRKTKDGWKLVRSQFNWHQQ 427 SDKEAEEKIREWKKRFIEAFNHKDLDKLRSLLHPDVKYHDTEPQTFDYEELVERIEEFLKKIDVRIEIKSIEIEIHPNGHTYHVTVHITVHMNRGDRTQTYHVTQHDRYELRNGQFYLAETETRTNGG 428 PKEEKARQQIREFVERLYDLMNKGDADAVASLYTDDATFHFSDTQRTYSKEEFKRMVEKMFRAGVQFHVKSIEIQFDPNDNHVTVHVHVDVTNESTGQTYTFTQTFFFRFEGDELKLTEDRFHLDNS 429 PSDEEAVREMVRRYVEAMNNNDLDKIKSLYDDDSKYHDASQQRTFDAEELKEWYERFISHFDFRIEIKSIEVRVDDEHTITVHVNLHVTVTHNGETRHHTATYTFFLEKHNGSWKIVEVREHRDDE 430 DDEEMKEQIKEWLKREMEAWDRGDVDAWAELVSDDAEFHENDTNRTFDKEEVRERIERFVRNNIDAQRQIDSLEIQIHGRTHATVHVHVTIHEQGDNKTRHFTTTDHFEFEDNGVKLKERRTTTYHD 431 DDKELEDQIREWLRQYFEAFDSGDIDKLRELVTDDATFHNTSTNQTYNKEQFIEMVERFIRSGIDSSHEIHSIEIRINGTEHVTVHVHWTLHRRGGNRTFHGTTTFFFRFEPNGMKITRVQTTTQPD 432 PDEEMQEAAKQWIERFYDALNKNDLETLYSLFDEDWRYHETDTNQTYDLDQWKEMVERLIKSGIRFRVEIDEIRFETKGHTHLRATVHVTVQTEGGDTRQRFRDTHTFRQEKDGWKVVRTQTTTYHE 433 PDEEMEEEVRRLVRRYYEAIDSGNLEEVYELLHDDWTYHDASRNQTYDRDQFKDMVRKFLENDLKVQRHLKSIEVRINGTTEVTVHVHVEVHRSRGNTTYNVTDTHHFRRYKDGMKFVETRTHTQPT 434 PDKEFEEQIREWIQREFEAWDSGDLETWASLYHDDSTYHNTNHQQDYNKEQLKEMLERFFKAGNEAHREIKSIEIQKYGTHTFRATVHVTAQHNGGNQKVNFTYHFFFRFEKDGMKLVEKRETTQPS 435 PEDEEAIKQFLKRYYEALNRGDMDTIRKLVDDDSTFHDATRNQTYDWEEWLEMLKKQTDNDTKFEIKSIEVETKSSNTITVHSHVQVHTTHNGQPYTFQVTETHHFTLEGDSWKLTETHTHSDSS 436 PEDEEAIRQIVKRYFEAVDKGDADAVFSLYDEDARWHDSTTGRTFNAEELRERYRKLAERDSRHDIKSMEIRVVDSTTITVTVHVQVTFNQDGQSRTYSVTYHFHITKHGDSWKIVEVHTTRDSS 437 PKFEEAIKRWLERYYTALNNGDADTVAELLTEDWRYYDSSRNQTYSRDQFKKMVEELLSHDTKHEIKSLEIRVNSKDTATAHVEVQVHRTHNGQQHTFDTHDTHHFEFRGDRIYITHTHFHMDSH 438 PEMEEQIRQIVKRLYDAMDNGDADAVKSYYSDDSRFTDENHQRTYSAEEFKEMVKQQASNDVRREIKSIEVRINDSRSITVHVTFQLHENHNGQTRTITFHQTLHFVLIGDQWYIKHDHTQTDDS 439 VDEEDAKEIKEIIERLVEAFNKGDMKTFRDLFHPDWTYYQSDGSTEYDLDQFIEWLERLLSQGVRVEIERIQFDSQDGDTVHVTVHVTYHVTRNGNTRTIHATEHHVFTRFGDEWKIVRTQVHHDERQQ 440 SPDEDQEQIKEVLRRFYEAWNKGDRDKLRELLDDDWRYHDSNGRQTYNKEEFLEMVEKALSRGFKLEVKRIQIDDQKGNTIHVTVEVHMTWTHNGRRFEATVRDHHTFVKKGDSWKMVRTQSHWDNHET 441 PEEEDKEKIKEWYKREIEALNGRDLDAWKELVHPDATFHDASRQQTYDVEEVRKMIEELQSHGFRIELKSMEIRFDGDHVTVHAHFTVHFTHGDRHVTTHYTVTDHFQKKDGELKLIERQEHHDTQED 442 MSEKELEEQIRDFVRRLVEAFNKGDLDALERLYHDDATITFASTGQTYSKEEFKRWVEEWWKSVKGAQVQIDSIEVRVHDDGSVTATVHVTVHQRHGDRTHTFTVTSHFHFRFEGDQLYLIEEHVHIHHQ 443 SSEKEAEEAARELIRQYYEAVDKGDWEAVKRLFHPDATFHDESRQQTFNLEEFLKMLREWWESVKGVQHDIHSIEIQFHDDGSVTVHVHGTVHVTQGNRTKTYHFTDTYHFRLEGNRWKIVEYRSRRHQA 444 PSEQEAEEAIREWLRRYYEALDNGDWEALKRMFHPDWTYHNSDTGQTYDLDEFIEMVRQTLRRIQDSRHQIDSIRFEFDDSGQVTVEVHVTVHFNRGDQTHTYHITEEHHFRYEGNDFKIVETHVTTHQS 445 MSEKEMEEAAREIIRRLAEALNNGDFDTIKELYHPDATITFPSTGSTVDQDQFLRWVREMMERMKGFQIKIDSIEFEFKKDGELTVTVHVTVTVHQGNQTYTFHVTSHIHIRFEGDTVKIVREHITTHQS 446 NSEEELKEQIKEFIKREMEAIDKGDADAWLSLFDEDVTITQNGNTRPMHAEEFKEMIEQIASNNSNHHVDSIEIQIRGTDEVTVTVHFTVHFTHNGKNVTIHITAHFHFQVRNGDLKVKSKEEHTDNRP 447 MSEEEMKEAIKQWVREYFEAFQNNDWDKMLKLFTDDWTFTQDGQKQDRTPDEIREWVEEQFKNDAKVEIKSIEIQIEGTTHATVHVHVTFHHTHNGQQVTIDVTETHHFQFENGSVKLVHTRQHRDNKE 448 MSEEEMKEAAKQVIEQYYEAFQKNDLDKLKSYITDDWTYTNNGQTENRSPEEFKEFVEQQLSQNTTVEIKSIEFRIVGTTHITVHVHVTYHTTKNGETRTFDVTDTHFFQFENGSVKIVHTETRTDNKE 449 MSEKEIEEQAREIIKRFYEAIDKGDADAVASLYSDDSTFTHSGNTKDVSKDEIKEWVKKFASNNSQHHIKEIHFQVVGKDSVTVTVHVEIRMHHNGQTKTVTVTQHFFFEFHNGSLRIKRDEEHRDEHS 450 ASEEEARQDAIEILQRYYDALNKGDWEAVLRIVTDDWRYHENNGITLTTREQIRRWVEELFKKFNFQIQIDEIRAQIHDDGSATVTVHVTVTFHDGDKTVTTHTTDHHHFQLRDSRYQLIETHVHRDTKEN 451 SGEETLREAAKELVRRLFEAFNTGDMDTLRSLYHPGARFDVDEGRTYDKEEYLEMVKKWNSQDWQLQIDSIEIRIIDSTHVTVTVHVTLHNRSTGTTIHITRHITVELRDTQVFVIRDEVHTNS 452 MGEETLREAVKETIRRLAEAFNKGDLDKLRELYHPDATFHHYSGETYDLEEFLKMVEEWNSNDWHVEIKSIHIQIVDETTVTVTVHFTFTQPKTGRTQHFTSHFHIRFEDSELKITEEHIQEHS 453 AGEETLEKQARELVQRLVELMNNGDLDALRELFHPDWTYHTNNGETYSLEEFLEMVEELFRQQWRLQVDSLEVRINDENSVTVHVHVTFTQEQTGRTRHVTETHHFRYKDSTLKLTRTHAHRNS 454 NGEETARRAAEEVVRRFYEAINKGDLDEIRELLHPGWRFHQDQGTTYSIEEFLEMVKELFDQDWRLQIDSIEFRIVDENEITVTVHVTMTNRSTKETRHVTDHHTIRFQSSEWKIVTTHTHTNS 455 SDSSELQEAVRQVVKRMIEAINKGDRDTLRELYHPDARMHHANGQTFDYEEIIQFMAKLASADIKIDVESIEIKETKSNGEVTVEVHYTVRNKRTKQDVTVTRHFRFQQQPDGSFKLIEDRVQHDDR 456 PDPSEIEEKIKQWLRRMYEAINKGDIDTLRELFDDDWTYHQQNGQTYDKEEFLKMMEELFRRNVRIEIKSIEIKEFDSRGEATVEVHVQFHNASTGTTVTVTETHRFRFEPNGQIKLVETHQHRDSN 457 TSDEAEEEIREFDRRRFESFDRGDADAVFELVHPGAQFTDEREQRTYDQEEFKEWVKRVASNNVRHEIKSVEVQQTGENEFTVTAHVTVHNNSTGTTVDVTYTLHYRRQGDRWYLVRVREYWHQR 458 TSDEIKQAVEEWLKRWFEAFNRGDVDAVASLYHPGATMHLGPTSRDYDYEEIKRFIKEWLDQDWKLEIKRIEIQQVDKDEVTVTVHFQATNKSTGTTVDVTRHLTFRRYGDDWKLVEDRADFRQS 459 PEEKEAREIVKEIIEREVEAFNKGDMDAWKSLFAPGATFHHSNGTTYDLDEVKKMLEERWRAGVHIEIKSIEIRVKDGETMHVTVHLQMHDRRTGQTFDMTSHIRLERTQDDIKIVEKHSHTDSGS 460 DDKTAEEIIREVVERYIDAFNKGDWKTALELLDDDWQFHHSSGQTIHTKEEFREWFEKLASDAKIEIKSIRVEKKDSNTYTVEVHVTVTHDSTGQTFTVTEEHHLRREGDDFKIVETRVHVNPN 461 DEKTQEEQIRQIIREFYDALNKGDADAVMSLFHPDATMHIWNGQTFKTREEIKEWIEKWASNYKIHIKEIRIQFEDHNRITVEVHFTATNDSTGTDIDFTETHHLELHGDDWYIIETRTTSHQQ 462 DEDTAREAIKETKKQFVEAFNKGDADRLLELLHPDATVHISNGETITTMEEFKEWVERLASYVEIHLKSVEIEQKDHNEFEVHAHMTFTDKRTKQTYHVTATDRYRFSGDSVKIIESRFHFHQT 463 PSAEEIIRDLVRRLVEAIDNGDWEALSELYAPDARFTEGPKKQPLDREEFRKWVEEFSKHPSTREIKEIRIQQHGTHTYTVHVHVQLHDQSTGRTFDGTSQLFIVRKDGSWKFKREQDDFTNS 464 PSMEEAVRDWLRRYFEALNNNDLDALEELFDDDWRFHLAETQKTFDKEEFKEWARTLMSFKSQVQIDEIRIQIYGETEATVEVHVTITRDDTNQTTKFTEEHHFRRKDGSYKLVETHVQRDQA 465 DNSEIEDWIRKYFAAINHNDLDAIASLYTDDSTYYDAQPRTFHDKEEIKRWYEEFMKRFKDVRFEIKEIRVHGQTVTVHVEVHATHGDRDYTFKVTSHFVFKDGKLKEVRDHMQSTD 466 PASSEEIKDWIKKYYEAYNNKDVDALVELVDDNAQIHDQHGETLTDKEEFREWVEKWLKEVKDVKFQIDSIDTTDSTVEVHSTVHTTQDGKTVTIHVTETHHFRNGKLTSTHIHSDPDDG 467 PSQEEIKELDERRIEAFLKQQDADTLAKLMTPDSTFHTYNGETLNDQEEIKKWFKRYFEENFDEMHFQIDHMHIEPNHITVHVTVTFTRNGQTYHMRVTYTLTYRDNRLAHMRIHVDTKHS 468 PSEEEIREIVKRLMEAFDKGDADAVMSYYHPDATMHVSDGVTFTDLEEIKRWIEQWFKSFDDVKRQIESIEIRGDTVHVHVTVHATQSNGKTITFHVTSTFHFNKDKRIVEERIHIDQRE 469 MSEEEIRQFLRRFYEAFDKGDVDTFASLFHPGVTIHVWQGITFTSREELREWVERFLRNFKDMQREILSLEVRGDTVEVHVQVHTTHNGQKYTFDVTHHWHFRGHRVTEIRVHVNPT 470 DSMEEIAKKVVERFAEAFNRKDLDAFAEIFHPGATVHFWEGVTITDQEELKKWFEEFMKRFKDVKVQIEHVDVDQDHVTVHWTMTVHHDDRTIQFHVTTHFRFKDGKLTEVRFHMDWQEHD 471 TSKEEAKEILKRMYEEFAKERDYDKWVAYFHPDATMHIYQGTTFTTQDEIRKFLKEFLERFKDMKIQIERIEVENGRVTVHYTAHFTHGDETRTYRFTDHFVFKDGKITEERSQIDSL 472 PSKEEIEEFLRRMFEYWAKTGDVDAYMSLFHPDATFHISDGETFTTPEEVKRWFREFLKHAKDVKIQIERIEIENGRATVHWTMHVTHGDQTHTVRVTTHFQFKDGRITEVHIHRDDT 473 PSKEEIKEFLKRWFEYFNKTGDADAAASLLHDDVTVHLSNGTTFTDKEEIKEWLRRWLKSAKDVHIQIERIEVQDGRATVHWTVHTTHGDQKYTFRATTHFVFKDGKIVEVRHHYDST 474 PSKEELIQLVQRWYEEFFKTGDVDKASSFFHDDATIHNASGITFTTKEEFKKFMEEWFKKAEDVKIQIERIEVEGGTVTIHYTVTVTHGDETKHTRFTDHFRFENGKLTEVHSHYDDT 475 DDREDIERLVRRFIEALNKKDLDTLADLFHDDATMHLYNGITFTDKEEIKQWFEEWMKRFKQVHIELKSMEFRGHTVHVEWTIHATHGDKDITFHAHTTFHVRGKKIIEMRIHVDTDNN 476 PGEQAIKEWVERWVEAYNKRDADALASLYTDDVTFVHGDQPYQLSREQYKEWVERFLSHFKDSKLDLKSIHIDGDTVTVHMEMHVNTNSQTYTFEITVHLRFKDGKLKEQRDNTDSQS 477 MSEEQAKELVKRFMEAVDTGDLDALKELFHDDATLHLSDGITFTTKEEIIEWFERWLSQLQDVKRQIESIHVTDDTVTVHWTMHVTHGDQDFTFHGTTHIRFKDGKIVEMREHVDQDDGG 478 PSWEEIKEWVRRMVEEVFNTGDWEKAKSLLHPDWQFHHSSGTTFHNREEFVEWFQRFLKRFPDTRVDVSHIEITSEDVTVTFHFTFHARHGDQKFTYRVTEHHKFRDGKLVETRVHWHQT 479 PEEEIREWKRRLFEALDHKDWEKLSELFKSSKDIKMTTQNGRTFDAEEIIEWFRRFVESFADMRHEIKQIDFEGDTVTFHVQVHFTRPDGSTKTIDFTFHDRYDKNGKIVSTNITWDEKD 480 PEEQIREFVRRLIEAFNKHDIDKLKEIYDSSKDVKFHQDSGETYDKDEFLKQVKEILERWASVHIEIKRIEFDGDTVTVHVQVHLTRPDGQTHTFDVTSHFHFDKDGRVTSEEIRTRKVD 481 PEEEIKEFFRRLLEALDKKDWEKLKEIYSESKDARITEDSGQTFDKDEFVKMLREFLERWAQTAHQIDRIEFHGDTVTFHVTVHLTHQNGQNVTTHVTSHLHFDKDGRLTHEQIHRDKRD 482 PMSEEEIKQFVKRAYDALNNHDWETFASLFHPDARVEFNDGTTLTTLEEIKEFIKQLLEKLGRMHIKIDEVHIEKHGDTITVTVHVTVHVHTPDKEITFRATHHWHFTRGRLISLQEHMNQDNK 483 PDEEEVRRWLREYYDAWNRNDLDALASLLSPDWTLHNGQQSREDFIKWVEEFLKRFKRMRVQIDEIRIERHGDEVHVTVHVTIHFTSSNSTDEVHTTDHHTFRNGKIVETRTHTDQRS 484 PAEEEIRQWIRRYVEAWNNNDWETIVSLYAPDATFHFGGMSREEFERWVKEWLSRAKDIKIQIDSLEIRQHGDEYTVHVHMTMHITHDNKKTTFRFTSTFHFRNGRLKREHFHSSTES 485 PDEERAKDWVRRFYEAFNQNDLDAILSLYSPDATFHMNGMSYEDFKRWVEEFLKKFKDVHVQIESIEIRVSGDTVTVTVHVTVHVTLTDGEVTFKATQHFHFKDGKLKEDEMHWRTES 486 PAKEEVKEWLQRFYEAWDNNDADKLKSLVHPDATFHDGGYDYEQWKEMVEEWLSRVKQSSHHIKEVHIEIHGDEITVTVHVEVHLTHDDRTVTVDVTDHYRFRNGRLVEVRSHRRTHS 487 MSEEEIREWVKRFFEAINKGDMDKLRELLDDDWRYHDTDRQQTYDRDEFLKMVEEFLKKFPGAQFEIKSIEIRGDTVHVHVQVHMTHDDGSTQTIDITETHHFDSDGKLQRTEVTSDPKD 488 MSEEEIREIDKQRIEAINNGDMDKVKEIFHPDATFHFNDTQTTYNLEEFIEWVERFLRRFKDVQIEIKSMEVRGDTVTAHSEVHVTHPDGSTQTIRVTYTIHYDKDGKIKRMEINTDPKD 489 PSREEIEQLDTERIEAFNKGDAEKLKELMHDDAQYHNNDEQQTYDKEEFIEWFEQFMKKFKGVRIQIEELHVHGNRVTAEGTVTFTHDDGSQTHIRFRYTVEYDHNGKIKRVEESTDPSD 490 ASEEQIEDILRKMYEALNRNDLDAFLSFFHPDATFHVYQGITFTDLEEIKRFFKEFLERMKDVHIEVTRIEFHGDRVTVHYTVHVNHPGETKTYHATDHFQFKNGKLTEVRSTIRQED 491 TSEEEIREWVKRWAEAFNNNDLDKLVSLFHPDAQIHFYNGQTANSLEEFKKYLERFFRHAKDVRFEIKNIEVHGDTVTVHWTITVNYPGKTVHFHGTTHFRFRNGKLTEVHFHVNQED 492 PSEEEIKEFLKQLYETIDHRDADAFVSLFHPDATLHISEGITFTTLEEIKRWFEQWLDRVTDVRHDIKRIEIHGDTVTSHVQTHVTHPGQQTTINVTEHHRFENGKLVETHTHWNQER 493 TSEEEIREIIKTFFEAVDRGDWKKIKDLYAPDATLHHSSGRTFHSLEEIVRWFQQVFSQLKNSSHQITGIEIRGDTATVHVEVHVNNDGRTITYRFTSHFHFSDGKIKEEHVHVHQEG 494 PSEEEMERAVREVMKRYYRAINEGDLEALKELFHDDARFQSSPMNKEQFIEWVKKANEAGTQLHVHDMEVQIDGDEVTVHVNVTMTVTRGDETRHTTFHETHHLRFTDDGLKIISTRVHFQTHQ 495 PSEEEQKREIKEFYKREAEAFNKGDLDAWDSLFDDDVKNSSNPADKEEIKEWIKKAFDNNTQMHITHMEIEVNGDTVTVHITVTVHTHRGDRTTTTDYHTTDELRIDSDGWKFVDRQTHFQTHH 496 MSEEEIKRAVEEFVRREIEAINRGDLEAWKELVDDDARVESEPANKEQMAKRIEELFRAGTQIELKSIEIHVDGDTVTVHVHIQFHTHHGDRTTTVDVTATDVIEIDHDGFRIVSRRFQRHQHT 497 SDSEDEEAAKEWVRRWAEAFQKGDLDTLSSLYHPGATIHHSDGETYDRDEYLDWLGKYHKKFDTSVTIHEIRVEINGDEIRVHVNMTLTHHHGDQTYHFRVTYTFRFEKKKDGLYLVEQHTHTDDT 498 DSSEAQEEIKQWFRREFEAMDNKDRDTWASLFHPGSTVHHSNGQTYDREELIERFGSFQSRFDAKHEVKSIEIQQHGDHITVTVHVTVHLTHGDKDKTIDVTYHDRFRKTKDGWKLVERHVHTDEK 499 SSEEEQKEEIKKWKERFIEAFNKGDVDTIFELVHPDATFYDPNGQSYNIEEFRDMIEKIVSQGYQIRLVSLEIQIVPNPGEVTVHVTVQIHQPGANKTYTAHFTDRYRQKDGQFYLVESHYRRDQEE 500 SSEEELREKAKQLVERFYEAFNRGDMEAMKRLIHDDARIHHDNGETYDKDQMIDMLKKILDNDVRLEIKSIEIQVSSVPGQVTVTVHVQVHFDKEGKTYKVTHHWVFQVKDGDMKIVNLHEQTHDTS 501 PSEEELKEQVKEVLERYYEAINRGDMDTVASLFHDDATFRHSNGEQINKEQFVKWLKELFENRTRIQVDEVHIQIDEEPSTVQAQVHVTMHTDGSGKTFHVDESHRLRNQDGEVKFVSTRGHTRDSS 502 MSEKEQEEAIREVIRRFYEAINRGDMDALEELLHDDWRYHHPSGQTFSKEEFKDMVRKLVENGAKFHIDSLEIQIDPSPGDVTVTVHVTVHHDGKNETYRATDHHHLRLSNGDWKIVETQVRTDNTT 503 PVSDKEAEEDIREIVRRYVEALNKGDIEAIASLYHDGARIEFTAEQRTVDKEEFKRWVEEWKRQFKDATIQIDSLEVETKDDGTYTVTVNMTITDPSTGHTVHVQSHMHFKAKTKQLYIASEQIHFQSS 504 MSDDELKEAVKDWLRRFYEALNHGDLDTLKSLFAPDWTFYNVNNPQTYDLDEFIEMVKELLEKFDYRINIEEIRIEIQGRNTVTVHVTFTVQFHHGDETQHYQFHETHHFRFEGDELKLKETRTQTDPT 505 MSDKELKEAVEEWIRREAEIFNKGDLDAWASLFHPDAQYHDSSDPKTYDYEQMREMFERLQRRFDARMQITEIRIQIFGRNEVRVTVRMEVTFNHGDRQEHYTYHYHFVFRFDGDELQLVEKHTTTQPS 506 MSDEELKRAVKDWIRRFVEAFNNKDLDALDELLDDDWTYYDSSRKTQFSKEEYRKMVKELMDKFDFRIQIHEIRIQIFGRTTVTVHVHMTVHLTHGDETHTFHVTETHHFTFEGDELKISETRTTTQPS 507 ASEEEQREAIKEFKTRFIQAVNNGDLDTVRSLVHDDATYHHKGGQSYDKEELLKMIKEMFDNNIQIDVDKIDIQSNGTNSATVTVHVTLHNRTTGQTYETEQHDHYEFRGKRVFLTETHVNTDQT 508 PSEQEFKEAVKEWKERFIEAVNKGDMDALRELFHDDATMHHSGGQTLDKEEIIQWFAEAFKNQTKWDLKEVHIQIDSSDTVTATFHVETTNQRTGRSFDNTQHDHYRFEGDTVKLVETHTHTHES 509 PWRKELEEQVREFVRRYIEALNKGDLDALARHFDDDWRFHDARTGKQYSRDEFKKMVEEMFKANVRVQLDSVEIRVNDDGTVTVTVHVTYQDSRTGRTFKVTEHHHFRREDGTMKVVRTQVHFQELGS 510 PEEKEIEEKIREWVQREIEAWNKGDLETWARLLHDDVRYQNNDTGQEYNKEQMKKMFKEFFDNNIEVQLDEMHVQINPDGSVTVEVHVTFHDRRTGRTFKVTYHLFFRFQDGQLYIVRKRATRREVGS 511 DRREEVERKIREWIKREAEALNTGDVDAWKSLFTDDFQYTNSDTGRTFDLEEVREMVKKLFDAGVRVQVDSMEIRFKPDGTIEVHVTMTFQDSRTGRTRQAHYTDHVRFENGELKVTSRRATTQPLGT 512 PEEKEIEEKIRDWLRRWAEAFNNGDLEKLASLYDDDARYHDSRTGRTFDKDQIKKMLEELLRKNVQIEIKEVHIQINPDGTATVEVHATVHNNSTGNTVDVTYTFHFRFEDGELKLKSQQARFHNRGK 513 PDEEEAKEQLKEWYRREAEAFNKGDVDAWASLFHDDATFRDSRNNQDYDKEEVRRMFEKMSSQGWRVQMDSIEVRIIPNGEVEVTVHFTFTDQRTGRTFKVTAHDRVRKENGTFKFLERQVTTQPTGS 514 PSEEEIREWVKEFLRKMYEAINRGDVDAVASFYHPDATFEHSNGETYDYEQFREMIKRLFEQNTRVEIDSLEIQIDSSRSVTATVHVTMHTNRGDKTQTFHVTQHYHFEYTNGEWKLKRDEVHTEQRTG 515 TSEDEQKKKAKEWLERFYEAINRGDLDALRELLDDDWRYHDASRGQTYDREEFLDMVKKWNDNNWQLDIRSIEFQVQPKDHITVTVHVQFTNRTNDRTIDVREHHHFRFKDGSIKLTETHSHFDSG 516 MDEEELKQIIKEVIERYYDSFNKGDMDKLRELIHPDAQFTNADTGRTFDKEEFLDWAKKATDNNIKIEIHSIRIEVKDKDHVTAEVHVTFKNDKSPQQFDVTNQDFFRFKDGSVKIVEHRTNSDSK 517 PSEEEIERQVRDWLKKFYEALNKDWREVKKLVDPGVTFHFNNTTFTTQDEIAEWVRQFISNATVQVDSIEIHIHDDGSATAHVTVTVTINGQTFTVHETHHFQVDHNGEIRLVETRTHFDE 518 PGEEAIREWVRRYIEAMNRRDVDALASLYHEDATMHVSSGQTFHNIEEIREWYQRFFETFKDVKIEVKSIEIRGDTVTVHMDVTVHRGDQQYHFKVTVHFHFKDGKLKEVQINRDPT 519 PDKEEIKEILRQFYEAIDTGDADKIRELVHEHATMHIYQGRTFTNREEIVEWFERWTSRTRSHHQVDEIHIDDTSKTVEVHVTVTHQETGTTFTFTDEYHFKDGKIVEMRSHEDSN 520 DDREEIKEFLRRFAEAFNKGDLDTMAELVHPDATVHFSSGETLTTRDEIRKWLEEFFKKNDSKVHLKEIHIDSSSQTVHVHWEVTHDSTQQTFTVTTTFHFQDGRLVEVRFHHDST 521 PSEEEVRELIRRYYEAFDKGDADALEELLTPDFQYHDSRNPTTFDLEEFKEMVERFFKTFRDMSREIKEIRVDGGHATVHYTVHVTDYRTGRTVTINATDHMRFKDGRIVSIRSTFDDQD 522 ASEEEAEEFVRKFIQMAFRTGDADAMASMLAPGWTFHDSSGVTYTTREEFKKWFEDMLKRTDEIKVQIDEVRVSDNTITVHVTIHFHHKDDDKTIRFTETHHFRNGQLKETRLHVDNEG 523 PSDEEIIEEAVRRFYEAFNQRDVDALAEILHPGVTFHSAEGVTLKTKDSIKEWMTQFLQRFKDIKVQIDEIRIHGDTVTVHVTVHVTHDGNTHTYEFTHHWVFKDGRIVEVHEQMRDDR 524 ASEEQIREWVKRFYELWAKRNDADTAADLMDDDSTLHVWTGETFTDKEEIKEFAKRWLDTFSSFRVEIKSIEIRGNTVTVHVTIHVTNKDTGTTVTIRYTEHHTFENGRLKETRIHADNQQ 525 DDKREIKEWKERYLQRFFNTRDWRVIRELVHPGVTMHVESQNTTMTDVEEIVRWWKEWLERFPDSKVQVDSIEFDGDTVTVHVTIHTNHKDKTITFTVTYHDKYKDGRLVETHITIRQHR 526 DKREKLRQIAEEFIKTFTEAVNKNDLDTAVEMYHPDAKYTNASEQRTYDREQFREWFKEYVERVGRMQVQIKHIHVDGDTVTVHVEVHYHHNGKTVTTRVTRHFRIKGDRVTRDEVHTDNQQ 527 DKREKLKELIREFFERYVEALNKGDWEKVASLYAPDATYWDARRQQQYSREQFIEWVKEFAKRTGDIEVHIHEIRVHGDTVTVHFTVHYHHNGKTVTTRVTRHFTFKGDKIAEDRQHTDEQQ 528 DKREKLKRIIEEFFERYVKAFNSGDVDAIASMYHPDARFWYSKTQTTYDLEQFREIIERLIKRWGRIQVKIDEIRVHGDTVTVHFTQTWHSNGKTVTARVTRHFTFRGDKIVEDRQHVDDQQ 529 DKREKLKQLMEEFLERYVRAFNEGDADTVKSMYHPDARFTHSKSQQTYDLEQFAKMFEELARRTGRLQVHITRIEVSGDEVTVHYTVHYHTTSRTTTVNVTSHFRFRDDRITEERVHEDDQQ 530 PQEEILKELIRRFIETYVEALNKGDVDKLMSLFSPDWKYHLDKTKETFDREEFREWFQRLSSQVRRMQVQIHEIRFDGNTVTVHVTVHIHHDGETVTSRQTEHHTFEGNKIVETHVHADDQR 531 TSEDQKKAKDILRRFFEAWDKKDLDKLASLFHPDWTNHVSYEQITFTTLEEFKEWVKKWFDRGFDKSRHQIDEIRISSHTVTVHVTIHQTRNGQEFTYHVTEHHRFKDDRITETHQHMNQED 532 SSEDQQKIKEIKKRMLEAMDNKDADTFASLFHPDAQMHIEQYNITFHNREEIKEFFEQLIKNGFDRVHHQIDEVHISTHTVTWHITAHVTRNGETYTYHFTAHDRYEGDKLTETHYHSRQQD 533 PEEEHIRTLLERFYRALDEGDLDAIRELFDDDAEFHNKSTGQTYDLEEFLRMIEERLKRNKDSRHEIKEVRITGNHATVHVTVTFHHDGRTHTYHVTHHWHFRDGKIARLQEQSHDAG 534 PDEEEIKEILERYYEALDKGDWKAIEDLIHDDARYHNASTGQTYDREEFLDMIRKWLSTFQDSRHELKEIRFTGKHVTVHVQVHVNTPGSTQTYDVTHHWRFKDGKIVRIEEHRRDTG 535 PEEEEIKEFKKRFIEAFDKGDWEAIEELVDDDVTFHFASTGRTYDRDEFIEWIRQWLRHFKDVKRQIHEIRITGGHATFHVTVTVHHDGSTRTYRVTVHDRYRDGKLTETRFHVDDAG 536 ASEEEIRQALRRFYEAIDKGDLETLAQLFHPGAQIHFSDGVTLHDQEEFKEWMTKFLSQVSDIKHEIEEIRIDGQTVTAHVTVHVNQGDKTYTMKVTEHHHFKDGKITETHFHFDRKNT 537 TSEEEIREVLKEFYRAIDQGDWETLRSLLHPGARIENSNGIEFTDQEEFIRWVREFFRQVTNVHRQIKRIEIDGDTVTVHVEVHVTQGDRSYTQTVTEEHHFKDGKIVETRIHVDTKQN 538 PSEEEIKEVLRRYYEAFDNGDWETVRRLFHPGATIHISQGVTITDLDELRRFFEELFKKLTDVKHDIKRIEIHGDTVTVHVTVHVNQGDQTFTIDVQEHHRFKDGKITETRTHIDTKRN 539 PSEEEIKRIKKRFIEAFNTKDLDELKRLFHPDATMHIWNGQTFTTLDEIKDWFRKFMESVKRFHMQLDRVEIDGETATFHVTVHVHTKDKTVTIRVTVHDRYENGKLIESQFHEDQKDT 540 SSEEEIRQWVRRYVEAFNNGDLDALKSIFHPDWTYHDASGQTFTTRDEFKKWVKELMEKVKSYRLEIDSMEIRGNTVTVHGTLHVNHDGKTVTIHVTEHHHFRNGKLTETRVHRNTQPT 541 PSEEEIKRFLKRLYEAFDSGDADALFNLFHDDWTFHSSDGRTFNDREEFREWVERFFKRFGDTAHQIDEIRIDGDTVTVHVTAHFRHPGKTITVHVTDTHRFRNGKLTETRVHVDQQET 542 PSKEEIKELKERLLEALDKGDMEKLKELVHDDATFHFDNQTFTSKEEFLEWVERFFKSIKDTHREIKEIRIDQDTVTVHVTQHTTHGDKTITVHVTTHDTYTNGKLTESRIHRDTQPT 543 ASQEEIEEWLRRFYEALNRKDLDAVRELIDEDSTFHISDGSTLTTADEVKEWVKQMVERFNRFRIEVKSIEIRGDTVHVHYQVHFDSNSQTITVDATDTFHFKDGKLTEVHSHWDRKE 544 MSEEEIKEWLKRFYEAFQRKDLDALRELIDDDSQFHWSNGETIHSADEFKEWVKKFAEDFPDFRVEIKRIEINGDTVTVHVQFHFTNNSQQQTFDVTDHYHFKDGRLVQVHSHINQKD 545 TSEEQAKELKERLVEAFNKNDMEKLDELVHPGAQFHHNGQQYDKEEYKDWVRRLLERFDVQIEIKSIEIRGNTVTVHLTAHFHTNGKTVTFHFTVHDRYKDNRLTRSEEHTNNAND 546 MSEEEIKEFKKRLLDAFDNGDMETLDRMFHPGAQFYHNGQQFSKEEYKEMVERMLSRWKFDHQIDSIEINGDTVTVHVTVHRTTNGKTVTVHFTAHDRYTDGQLTESRFHEDNRND 547 MSEEEIREWLKRYYEAWNNKDLDKIKSLLAPDWTYHHSSGRTFHDPEEFAKWVQELMETFKEFRIDIKEIRIDRSHSRVTVHIEVHWTQDGKHQTTTTTDHHQFDHDGQLKETRVHWHQA 548 MSEEEIREIDKRRIEAFNHGDLEKLERIVHPDAQFHFSDGETIHNLEEFKEWVERVLRRFPDTKIEVKEIHIDSSTNRVEVHMTVHHTHNGKTTTVDVTYTVRYDHDGKIVEVRETRNQR 549 MSQEEIKELKKRWIEAWNKKDRDKLRDLYHPDAQFHYSNGRTFHNLEEYLKWFSEFLKKFPRTHLELKSIHIDDSTNRVTVHIQMHLHHKDETRTVDVTQHDRYAPDGKIIESRLHFNPK 550 PSEEEIREWIKRYYEALDRKDLEALQRLITDDVTFHYSNGTQINTKEEFTEWVERWMKTWAEVHHEIKEIRIEGDTATVHYTVHLRHKNGQTYTIDATDHFHFDKNGKVKRVQSHSNQRD 551 PSEEEIKEWLERFYDALDRKDREALDRLFHDDVTMHVDEGTTYTTKDEIKEFLERWLETWDSTAHEIKRIEIEGDTVTVHYTTHLHHKSGQTFTQDATDHFEFDKDGRIVRVESHTDQKD 552 PSEEEIKEIKKRLAEAFNRGDVDTVASLFHDNVTMHTYNGQTFHSKEGIRKWFERFIREFPEIHMQIERIEFNGDEVTFHFTVHATHPDGKTVTIHITVHDRYDKDGKIVESEFRVHQQD 553 MSDEEIKEWKVKAEFEAVNRNDADAFAELFHDDSTVHFDEVKITFTNKEEIRDWYKKWAERVGQVHLQVDEVRVEDSDTTVRVHMTIHLTHGDKTQTIHVTQTDRYQDNFLKEQHITVRST 554 PSEEEVKEFVVRAFLEVFNTNDMDKLKSYFHDDATVHFESEQRTLTTKDEIKEWFKQWFERVGDFKVQIDSVRVTDSIITVHVTVTIHFNHGDQTRTVTIHFTDRYVGNKLVERRVRVDQQ 555 PDEEKAKELLKQFYEAFDKGDWEKLVSLVHPDAQFHFNDGSTIHDQEEFRKWYEEWKSRFPEVHRQIHHMRIEDDDATVHVTVTLTFTHNGQEYHVEVHETHRFRGDKIVETHVHENEQK 556 SGREATKEWKKRFVEALNQGDLDAIMRLFHEDATLHVSKGETYTDKSEIREWFERWLKSLKDVKIQIDSIEIRGNTVTVHMTMHVNRGDQTYTFHITTHDHYKDGKLTETHFHEDSRD 557 TSEEQIRETLKRFYDAFNRKDLDALREIVAPGVTFHFSKGITVTDREEFLDWVKKFLEKVKQMHIQIHSIEIRQNEDDTITVTVHVTVTLHHDNKTITMTVTDHYRFKDGKLVEVHSNIDQEDS 558 ASEEEIKEFVRRFVEGFNNRDADKIASLYTDGATLHVSEGRTFNSRDEIRKWAKEFLDKVKQVHIEIKSIEIQQDEDKQVHVHVHIEVHLHHDNKTTTVHITSTMTFRDGQLVEEHIHVDSEDR 559 TSEEEIKEFIRQFLEAFNKKDLDLFASLFDDGAQLHISNGVTFNSQEEIKKFLKELLDAYEELHMHLTSVEIRQNEDETVTVTVHWEVHVRQNNKDITMTITTHFTFKDGKLKRVKIDIDQEPK 560 PSEEEIREFVKRFLEALNKRDLDKVRELFTPGVTLHINNGVTYTTQDEITKFFKEFLDSFKDIKIQVTEIRIEQKDDSTVTVTVHWEVHAHHDNKTVTLHMTTHFHFKDGKLVEVRIHIDSEDT 561 PSEEEIKRLIKRFAEAFDNGDMEKLASFYDDDATMHVSSGYTATTREEIKEWFERFFKNFPNTRHEIKSIEIRGDTVTVHVTVTVHHPGKTITIHVTRHITFDKDKKIQRDQIHLDERD 562 PSEEELKEFLEKFYEALDKGDLDTLRELLHPDVTFHFRDGETITTMEEFEEWFKKLQSRFKDSHHEIESIEFSDGTVTVHYTAHFHHKDETVTVHATDHYEFDHDGKVKRVKSDYDERR 563 PSEEEIREFKKRLVELFDNRDLEALAQLYHDDATFHYADGVTVTTKEEFKEWVKRVLDRFKNARHKIDRIEVSDGTATFHITAHFTHDGETVTIHATQHDHYRKDGRLTRSEDNSEERR 564 PSQEEIREILRQMYEAFNNNDLDAIASYFHPDATYHIWNGRTITTLEEFKEWLEEVMKKFKDLRIEIDSIHVSDGTATVHVTFHVHHDNETVTIHATETHHFDHNGKIVETHNNADEHR 565 PSEEEIKQWKRRFLEALDRNDRDELKSLFHPDATMHLANGQTFTNLEEILKWLKERMEKFQNTAHQIEEIRVSDGTATVHVTVHVHHKDKTITFHFTQHDRYDKDGKLVETHDNTNQHD 566 PSEEEIREMLKRFYEALNHNDLDTIEELLHPDATFHHASGTTFTTLEEIKEWVTRMLRRFKDLRIQIHEIRVSDGTVTVHVTIHVHHDNKTVTIHATHHWHLDKDGKVTEVHDNSDQRD 567 PSEEEIKEWIRRYMEALDRNDVDAVASLYDDDATMHIYNGQTFTTKEEIREFYERWMKSVRDTAHEVKKIDVSDGTVTVHVEVHLHHDGETVTIHATVHLRFDKDGKLKELRDNAESRR 568 ASEEQIKEWLRQWYEAFNTGNWEEAIKRLVDKDWTYHYNNQTFTDLDEVLKWFERMFKSGAHDIKRQVDEIRIDGDTVTSHVTQHVTSNGEHYTYHITEHHRFEGDKITETRVHEHST 569 MSEEQIKEILRKFYEAMDTGNVEDAIREVFHDDAQMHVNNQTFTSKEEIVEFFKRQWSSGNDEVHREIHSIEIRGDTVTVHVTVHFHSKGETQTYHVTHHWVFKDDRVTEVRQHTNST 570 TSEEQIKRLVQKFLEAFDTGNVEDAIREIYHPDAQLHVDNQTMHNLEEIVEFFKRLFASGQKEVHRQVDRIEIDGDTVHVHVTVHFHHDGETQTYHQTSTFHFKDDKLTEEHIHTNST 571 AHEEEIREWIKRWVEAFNKGDADTLAELYDEDSTLHDSNGQTFTNKDEIKKWAEEFFKRADDTKVEIKSIHIDGDTVTVHVTVHVNHNGQKYTFHFTSHLRFKDGKLKEQHIRTYQT 572 THEEEIRQWVRRYAEAFNKGDMDTLKSLYSDDSTYHNSNGITATTKEEIVKFIKEWLEKVGDSRFQIDSIEIRGDTVTVHGTVTAHTNGQQYHQTITRHFEFKDGQLKRDEARIHQQ 573 TSEEQLKELLRRLFEAFDKGDWETIAKLLHPGATMHIWDGYTATDLEEIIEWVRRWFKSVKRVHREIKEIRIDGDTVTVHWQMHVHHDNRTITRDGTTHFHFENGKIKEVRFHVDQRD 574 PDEEKIRQWVQRFFEEVDKTGDWRAFASYYHPDATVHYSEGKTFTTLEELARWLATWVRNVPDFRVEIEEIRIDGKTVTVHVTIHVHHKDKTTTVRQTSHFHFRGDKLTREHVHRNNSD 575 PSKEEIEEFLRRFYEEIFKTKDPDAFMSYFHDDATYHYNGRTFKTKEEIKDWFEKYMSSFERLHVQVDEIRIQDGHATVHVTVTAHQGHETIHARYTHHWEFRGNRVASLREHSDQQD 576 MSQEEIKEFLRQLYERLWNTKNADVFLEYVHDDATYHNNGQTYKDKEEIKEFFQRWFAHFPELHVQIEEIRIENGRATVHVTIHATQGDEDVTFHQTHHWVFKDKRITEVRVHTDTQR 577 SSQEEIEEILRRFFEEVWNTNDREAVKSYFHPGATYTDARTNTTYPADAEELAEWFSEMFERIKDLHVQIKEIRVSDNTVTIHWTVHTNHGDQTHTFHATTTFHFKDGKIVEVRTNMNQTD 578 ASEEEIRELIKRFFELFDRGDLDALASLMHPDWQFHFGDETAHNLEEFKDWVREWLSTYGESHHDIKRIEIDGNTVTVHVQVHFHSPGGKTITVDVTEHHHFVKDGKITETRVHYDQKE 579 PSEEQIRELVRRMIEAFNKRDLDALFELYHPDATFHYNNRTFNSREEIKEWFKRFFEKFGEVHVQIEEIRIHGKTVTVHVTVTVHHPGGKTVHIRVTSHFHVHDDGKITEERVHSDQRE 580 PSEEEIREFLRRFYEAIDKGDLDTLKELFHPDARMHINNRTFDSLDEIKEWFERMLSRFKDTAHQIDRIEIDGNTVTVHVTVHFTHDGGKHVTVHVTHHWHFVKDGKVTRLQVHENQQD 581 PSEEEIRQIKRRFIEALNKGDLDALEELFHPDARFEWGDQPFDSKDEIKEWFKRWMESVGRYEIRITHMEVEGKTATVHVQVHVHHPGGKTTTIDFRAHDHYHDNGKITETRITWDTKE 582 VSEEEVKEWVKRFFEAFQKRDLDTLAELLTDEWQYHHYSGNRTETLTTKDEMREWFKRFLSSFDVKIDEIEIHIHDDGTVTVHVHITFRSGDKQFTMTVTETHHFKDGQIKETHQHVNIQDH 583 ASEEEIKEWVRRFIEAFEKRDFETLKELLTEDWTMHSQSGNTSETATTLEEFEKWVREFLSKIDLQFDELHIHVHDDGTVTVHMTVTVTSGDQQFTVHVTEHHHFRNGKITETHITFNYQPH 584 ASEEEIKEILRQFYEAFQKGDLDKLLELMDKDATLHFHQGNETYTLTTKDEFREWFREFKEKFDIQFDELEIRVESNGTVTVHVKVTVRSGDKTYHMDVTETHHFKDGKITETRTHIRVQPT 585 PSEEEIREWKKRFFEALQKGDLDALLEIVDPDVQFHFYEGNRTYTATTKDEFKEFMRQAFEKFRFQIDEIEIHIDDSGHVTVHVTITVDSGDQKFTVHVTQHDRYENGKLTESREHRNWQPN 586 PSEEEIREWKRRFIQEFWNTRDYHAVERFFHDDAEMHVYRGETFTTKEEIVRWFRQVLSQFPEAHVQIDSIEIRGDTVTVHVTFHLTRPDGKTVTYHITYHDHYKDGKLTHTRFHVDTKET 587 PSEEEIREFLKRWYEEFVNEKDADKAASMIHPDATFHSDNTNLEQWKERVERTFRHTIDEIHVEIKSMEVRGNRITVHVTIHVHHKNGQTYTFDATHHWVFRNGKITHVNEHTRQHP 588 PDQEKIKDIKTKFFEAFDRKDLDTMVSLFHPGATVHFSDGITHHNLEEFKEYIKRLLDTFKETAHHMKRMHINGDTVEVHVEAHFKSDNQPRTFRVTVHDRYKDDRITESHFHWDEEN 589 ASEEELKEILKRWYEEVWNSGDWNAAASYIHDDATMHIWNGQTFHNRDEITEWIRRFLSSMKDVRFEIKRIEVHGDTVTLHGQLHVNHDDRTQTIRYTHHWTFQDGRIVRVEFHNDTGSS 590 ASEEEIRSWAQRYYEEADNSRDAEAIASLLHPDAQVHFARYQRQYDREEFREWLERWFRSVGDAQREIESIEVRGNTVTVHVTMHVTHNGKNVTIRATHHWHFRNGKLVEVRVREHTHES 591 PMDRSQIEEWVRRFIEALNHKDMDKLRELYHPDATLRYSGDHGLDAVMEWLKQWLEKFNNTRIEIKSIHVHGDTVTVHVTVHVRRGDEDQTFQFTSHFRFESNNRLVSEQIHTQPVD 592 PTDQSQIRDLIKKFIESFNNKDVDLVRELVHPDARLDASQSDGLDEIVEWFKRALEQFKNAQIQIHSIHIHGDTAHVHWTMHTHHGDQTYTYHGTTTFHFVKDNKITSIRIHVRQKD 593 TSEEEIRELLKEFYRALDEGDLDKARSIIHPDATMHISEGTTFTTQDEITKWVEEWIKKFSNVQRHIHGMEINGDTVTVHSRVTFTHNGKNKTVDVTDHYRFKDGKITNFTSHFNDT 594 PSKEEVEEWLRRFYTAWNNKDIDALAELLHDDWTYHNNQEKVTLTTKEEFRKWVKEFLDKAKEVHIQIDSIEIEVRGDEVHATVHVTIHVHHDDRTTTIHATDHHRFRNGKLIETHSTLETRE 595 PSKEEIEQWIRQYYDAFNKGDLDRLAELVHPDVTFHFYEEQITLTTLDEFREWLERFMRTFKEVHVEIHSIEIRVDGNEIEVTVNYTMHVHHDDRTITVHGQDHFRFRNGKLVEVRSRLETRE 596 ASEEEIREWVKRFFDAFNNKDLEALQRLVHDDVRMHVAKEQITFTTKEEITEWVKEFMKRFKRVHIQIESMRIETHGNEYTVHVHWTMHVHHDDRTVTLHGTTTFHFRNGKLVEVTFHIEERE 597 PSQEEVRQLVERMVEAFNNKDVEALKSLYDDDATYHDSSSNETLHTKEEFERWVRQWMSTFKDTRMQIDEMHIEVRGNEVTVHVHVTVHVNHDDKTVTLHITSTIRVRNGKIVEEHTHVDERE 598 ASEEEIRELVKRMIDAFNHKDLDTLASLYHDDATMHVSDGYTANDKEEIKEWFERVMRTFPDHRLEIKSIEIDGQTVHVHVQMHTTHDNKTVTMHVTSTFHFTDGKLIEERIHVDNRD 599 PDEEQIREFVKREVEIWNNRDLEKWKELFDPDVKWTNAATGQTYDREELIEMIKRILETFKQIQIEIKDLHISDDSYKVTVHVTVHFHRGDRTTTIDYTHHFHFRNGRLVRKQTHEDSK 600 PDEEIAREVAKRYYEAWDKGDWEALEELVHDDATFHEAETGNTYDKEEWIERYKSFLSQFPRIQRQIHDMHVSDDSNTVTVHGTVHFHRGDRTHTIRFTHHWHFRNGKIARMEEHVDTG 601 PEQEEIKEWIRQFLDQMFRALNQGDRDTIKSLYSDDATMHIYQGITFTTKDEILEWYERISSRFPRIHWEIKRIEVSDGTATVHVRVTFTHPTGEQRTYQITSHFHFDKDGKLTEEHIHTQPVPS 602 PKQEELEEIVRQFIERFVRALNNGDLDAVASLYHPDATMHIWEGITFTTPEEIREWIKRWAERFPEIHVQITEIRVSDGKVTVHVTVTFTHPSGKRHTYQVTRHFRFNKDRQLVEDRIHMQPVPN 603 PSQEEIKETKKRFVELFNRGDVEAAVRELFDDDSEFTHSETNTTKTASREEVIERFKRWFDSWPEVHIQIDSMEITSGDATVHVHVTIHATRNGKTTTFHVTVTDHYKDGKLKRSQEDTGST 604 DEREEIKEWIKRFFEAFDKHDLDKLISLLHDDATVHFSSHNVTLTDKEEFKEFIERMLSRFKDSRHEIESIEFRGDTVTVHWTAEFHHGDQTYTVHGTTHIRFKDGRVIEVRFHVDETG 605 DEREEIEKFVRRLFEAFDKNDWEEIARLLHDDATIHFASEQITLTTKEEIKEWLKEWIKKVKDTAHQIDSIEFRGDTATFHWQVHVTHGDKTQTNDATTHFRFKDGRLIEVRVHIDSTD 606 DLREEIKELVERWFEAFNRKDLEALAELVHDDARIHFASEQVTMTTREEYKKWLEEWFKRVEEIHFQIDEIRFHGQTVTVHWTAHVTRGDKTVTYHGTTHFVVQDGKIVEIRVHVDQTD 607 PEREEIKKWVERFFEALNKKDLEALAELFHDHATVHFSMTQITAHTRDEIKKWFEEFFKKAEEVHVQIKEIRFHGDTVTVHWEMHVTHGDQPYTFEGTTHFRFKDGRLVEVRFHVRQTN 608 DDREAIKEFKERLLEAIDKGDLDTFISLLHEDVTFHFASEQITLTTKEEIKDWFEKWLKKVKQTAHELHSVEFHGDTATFHFTVHVNHDTKTVTIHATSHDRYKDGRLIETRIHENTTE 609 SSEEEAKEAARELVERFYEAFNKGDLDLLKELMHPDATIHFSEGRTYHDLDEFIEAVKEFLKRNIKLNITSLHAEVDGDRVTVHVTVTMKDEVHHTWHFQRDHDGDFKVVEVREHTTG 610 PPEDEEKIRQWKKEFLDALNKGDADRLLEIIHPGSTFTFNGQTFTTKDEFKEWVERMKRRDTKFQLDELHIEFDKDHITVRVHVTIHTNDNSQPYTVHVTARDHYRKINGQWYLVRTEFHFHDSR 611 PREDEEHIREWIKREVEAFNKGDWEAWLRLVHPGSTFTYNGQTYTTKDELREWFEHAQKRNTQIHIKEIRIQFTQDHATVEVHFQMTVNDNSQQYHVEVTQTDHFRKINGQWYLIRREVHSDDKR 612 PEEDEEHIRQWYRREAEALNKNDLDAWASLFHPGSTVHFDGRTFTDQEELREFFKELASRNFRIHIESLEIHIDKDHATATVHFTVHWNTTSQPYTVKYHATDHFRKKDGKWYITERHVHTDDKR 613 PEEDQEKIKEYKKRLIEAFNKKDVDALAELVAPGATFHFNGQTFTTKEEFKEWVKQMASNDFQIHIDSMEIQFTKDTITVHVHYTVTFHESSQTYTVHATATDHYQKRDGRLYLVETRSQFHDTR 614 PPEDEEKIRQIVEEEFEAFNRGDLDRWLELWHPGSTLHVNGQTFTSKDELKEWMRNLLRNNVQMEIKEIRIEFSDDHATVEVHFTMTMNRDSQQYHVDATATIHLRKVNGDWKILEKHVQYNDKR 615 PPEDQEAVKEVVERFLEALNKGDADAVASLFHPGAEFHWNGQTFTTKDEIRKWVKEFNDRRIRVEVKSIEIHVDENHATVHVHWTMTVNDSSQPYDVDVHTTFHLQKRNGQFYILEVHFHVDDKR 616 TPASEEQIKEIIKRLAEAFNKGDMDAIKSLYDDDATMHIWNGQTFTSKDEIKRWFTELHKNDIEVHVQVVEIRVHGKTVHVTANFEFRDRRTGRTVRITRHITIRVTDNGELRIVEDQFHSHND 617 PSQEQVKEWANRFYEAFNKKDLDALYSLYHDDATFRDARTQQDYDRDEFREMVRQMLSRDIQLHWEIKEIQISDNHATVTVEVHMTDQTTGKTVTATQHFEFRRDHDGRVYLLRDEVHYQE 618 ISEEQIRETIKREFEAFNRGDLEAWASLFHDDATLRDARTNQDYDKEEMREMIERMLSNNVQLHVEIKEIRVTGNHATVHVEVHVTDSRTGTTVTFTTTIHFRLDHNGQVYIVEKRLHFQS 619 PSQEEVKEILRQFYEAINKGDVDAVASFYHDDATIHFSQTNQDYDRDEFREWVERMIRANVQIHFEIKRIEVSDNEATVTVEVTVHDSRTGTQVHFTQHIRFVKDHDGRIKIVEDRIHFNT 620 PSEEQVRELKKRLVDAFNRGDMETFDRLVHPDATFEDASQGRTYDREEFKKMLEEMWKAGIRLEFHIEEIEFSDNEATVHVRFTMTDSRTGRHIDARATDHYRLDHDGQLYLVRTQFHWQT 621 PSEEEIREIIRRLYEAINNGNWEEVARLFHDDWRYHNAKTQTTYDLEEWRRWVERFHKNNIQIEVEIKEIQFSDNEATAHVRVTVHDRRTGQTFHATDTHFFRRDHDGRIFIIRTQVHYQD 622 PSQEEIRQFVNRFYTAINRKDADEVAELFHPDGTFTFASTQRTYSLEEFIEWVRQAASNDFRFEWKIDEIQISDNEATVHVTVTVHDSRTGTTYQVHETHFFRKDHDGRIKIVRTEVTHQS 623 PSWEEAVKEWVKREVHAFNSGDMDAWLSLFHDDVTMHDSNGQTFNDLDEMKKWAEELWRQGAEVQIDSIEIKEITETEITVRVEITFRKTNTTVTFHITFRLDHDGSWKVVEKHVRTDN 624 PSDEEAVREWIRRFYDAFNKGDADALKSLYDPDAQMHISNGRTFNSRDSIKRWFTELFKSGVEIQIESIQVDEVTEKEVHVTVHFTMKQHNITVTQHITFRKDDNGQWRVFRDEIRFHN 625 PSAEEAAKELIRRFVEAFNKGDADAAKELYDDDAQMHIWNGQTFNSKDEIKKWFEEFHKAGFSIRILSIQVDEVTETEIHVTVHIQVDQYNIRFTSHVTVRRDHDGRWKIFEERIQNNN 626 PSDEEAIKEWVEREIDAYNKGDLDAWASLFTDDVTVHDANGQQFNSKEELKRWVKEMIEQGREIQVDSIRIDEITEKQVTVTVHITDKSQNITFTMHLRFEKQDDGSWRVIEKRMRNDS 627 PSEEEIRQVVRRFFEAFAKRDMDTLRDLYHDDATFHYNGRTFKDKEEILEWFKRLLDNIQRMKIDVEVHVDGKTVTVHSTVHRTHNGQDRTQHVTSHFHLDDDGKIVEERVHSNTQE 628 PSEEEIREAVKRFYEAFNKRDADALMRLMHPDATFTYNGRTFKTPEEIKDWFEKVLKNIEELHVEIHIEVRGDTVTVHYQVHFTHNGQTYTVDATDHFHFDKNGKIKRIQSHTRQTE 629 PSEEEIREFKKRFFEIVANGDMDAFKELVHPDSTFHWNGTTYKDKEEVAKMFAEFASTLQDAKFDIEIHVDGDTVEVHITVHMTRNGQTFTFHITVHDRYDKNGQLVESRFHENQQR 630 PSEEEIRETVKRWFEAFQNRDLDALADLYHDDATVTIDGQTFKDRSEIKEWAERVLKSIQRLKWDTEIHVDGDTVTVHSTFHTTHNGQDFTFHVTVHLRLDKNGKIVEQHTHTNEQK 631 PSEEEIREILRQFYEAFAKGDWKKLSEIVHDDATMHVDGRTFKTKEEIVRWFREVWKKMSRAKFDVEIHVDGDTATVHVTVHTTHNGQDYTFHVTDHYHFHKNGKITRIQSHTNQER 632 DLEEQVKEWLRQFYEALDKNDLDTAMRLLHPDATFTVDGQTFKTKDEIRKWFEEQLRSMRDIKREVSIYSITEREVTVRYTVHVNHPSGQTFTIDAQDHFRFDKDGRITEVRSHRDQKD 633 DFKEIAKEFLKRLYEAFDRGDVDAFAELIAPGWTMTVNGQQFDTPEEVRTFIERVLKSLKHSRREVQVIEATDRTVTVESTMHTTHDNGQDFTFHAHDTHRFDKDNRLVETRSHTDPKE 634 SSQEEIKEVLRRFYEALNKGDWKKIADLIHPDATFHHSNGQTYDYEQFVEMIKKYASDSKTRLEIEEMHIHGDTATVHVTIHQQRDTSRHTTHVTHHWHLKDGKVTELREHTNNT 635 TDESQIRDWVRRYIEILNNGDIDKLKELFDEDWTYHDIARQQTYNLEQFLEMVAQFMSRASTASLEIKRIEIGGDTATVHVTDHTKDKTFHYTEHHHFKDGKLTETRQQTDDG 636 TDESQIREWVKRWIEAFNRRDVDAIASLYHDDARITFEENNQTYDKEEFREWVERFMRTFPDFQLELKEVRIGGDTVHVHITFHHNNRTVHVTSTFHFKDGRLTEQRIRTDST 637 TSEEEIKDIKKKLVEAFNKGDADTFAELVHPDATFHFAQGITLTSKESVRKWFEEWVERNKDYRIEIDEIRFDGDTVTVHLTVHLGDTTVKVTTHDRYKDGKLTESRSHFQPT 638 SESEEAIRDWIRRWVEAFNKRDVDALASLYHDDATVHFTQGETFTTKEELRRFIERYLRTFKDVKMDVEEIRVDGHRVTVHMTVTVHHDNSTQTYHYTVTLEFNGDKLQEQHVHIHHS 639 MSEEEIKEWKRRMVEAFNNGDLDALADLFDEDSTFEVNKGEQFTDKEEIKEWFERLLKTFSDSQITIDEIRIDGNTVTVHSTQHTPQYNQTFRVTTHDTYKDGKLVSSRFHRDEG 640 DEEEDREAVKEWVHRYVEALNKKDRDALQELYTKDDSTFHVWNGQTLTDYEEIVKWLTEFASTVESVELDSIEVHVDGDTVTVHVHITFKSSNQTFTRTFHFEKTKDGFKLKEDRVQRHS 641 PEEKRKEEIKELVERMVEAFNKKDIEKLKSVYTKDDSTIHIWNGQTLTTQEEIERWIKEFLKTAEHIEIKSLRIEIHGDRVTVQVHLTLRSNNVTYTSTLHFELTKDGWKLVEEHIQNDT 642 PSDEEQIRELVRRLYTALNTDPDKFAELIHDDATFHISNGQTFTTKDEVKDWVEKFASNTSIEIKSIEVQIYKDGRVTVTVHFTVHTRTSTVDVTDHYHFQKTGSEWKLLEVRSHYDNR 643 PSEEAEKAVRELIEREIEALNKGDWEAWVRIIHMEDITVHINGQTFKNPEEIIRWFREFISNVQLQIDSIEIHQNDNGEVTVTVHITIHTKDKTIHVTFHLHFRKENGSWKLTSKQAHFDNKE 644 NDPNDVEAVQEIIRREIEALNKGDMDAWASLLDKDNSTLHFNGTTFETMDEMKDFMAKYVSNAQIRITSIEIHVNPNGTVTVHVHITIHHKDKTVHVTSTLHMRKKDGSWQIAEKHTHEDQKD 645 PHDQEEVEEFLRRLYEAFNKGDIDKLRELFHPDWQYHDAATQRTYDLEEFLERVEKLTKDIHIEIKSIHIETRGDEIHVTVHVTVHNPSTKTTVTVTDHHRFERGSEQWYLVETHSQSHNE 646 PSDQEAVEEMIRRMFDAMNKGDLDKLESLLDEDWTYHLEATNRTYDKDEFLEWVEKFMSHSHLEIKEIRIEIRGDTATVTVHVTVHDKRTGTTVNVTEHHHFNKKGEEWRILETRAHFNNT 647 PSDEEAIRETKKRLIEAMNKGDWETLKKLFHPDAQFHLSAYQRTYDADEFIEWVRKFMKDWRITLHSMEIRQDGDEWHVTVHVQMQDRRTGTSYSVTAHDRYVRNGEEWKILESRFHFNQS 648 PSDEEAIRELKKRFIEAINKNDMDTLKKLFHPDATFHFAAHQRTYDLDQFLKWVAERASHLHFQLDSIEIEIRGDQVHVTAHVTVHDDRTGRTFHVTSHDRYRKDGDEWKVIESQFHFNET 649 MSDEEIIRDLLRRLFEAMDKGDMDTLRELYAPDATFHIEERNRTFDLEEFLEFFAKRTKDFQRHIESMEIQQHGDDFTITVHVTVHNRSTGKTYKYTSHFHVRKSSSQWKFKEEHLQTRET 650 AHKEQQEKIKEWAKRFYEAINRKDPDAVKSLLHPDWKYHDSRTNTTYDLDEFKEIVEELAKNDVRLEVRSIEITASGDELTATVHVHFHNNSTKVTYTVTDHHRFREENGRIKIVETHSTMQSQDQ 651 VDESAEEEIRRWLRRFYEAINRGDLEAVYRLLHPDWTVEFSSEPREFNLDEFKEWVEKMIRAGFKFEVKSIEIHQDGDTATVTVHVDLHNDQTKDTFKVTEHHHFALRNGTWYLVRTQIHLQPVNS 652 TDPEDEKKIRDIKRRFVEAFNKGDWETIRRLFHPDAQFHFSSEPTTFNLDEFIRWVKEMIKRNVELRLDETHIEQHGDTIHVTSHLTFHFQEEQVTYRVTAHDVYQKQNGDWKIVEVHIHWDNSNQ 653 AHKEDQEEIKRWLKEFYEAIDNGDADAVYSLYHPDARIDFASEPRTFNIDEFREWVERLASQGTAHELKSIEIHKSGNTIHVTVHVTTHIKSTGNTYHVTQHFQFELINGQWFLTKDEIHINNENK 654 TDPSDQEAVRQIVRRFYEAFNNKDLDAIASLYHPDATFHFAEDPTDYDLDQFREWVKKFLDADIRIQIHHIEVESSGDEITVTVHVTMHNQRTGNTYHVTQHMHLRKKDGEWKVLRDEIHRDNANK 655 PDPSAQEAITEWLKRWVEAVDKGDADAVASLYHPDATFHDSRNPRDYDLEEFRRWVERFARNDVQRELKSVEIHQDGDRFTVHVHFTLHNRRTGDTFHVTATFFFEKHNGQFYIVRQEVTTQQENS 656 PDPSAEERIRQILNRFYEAMNRRDRDTLRELIHPDATFHDSNGQRYDKEEFLERFERIPWYRIHIDDMHIEQHGDEATVTVHVTFHIKTDSTSYTVTHHWRFVRFGDDWKIVELHVHTHNNS 657 PNPEDIEAAKQIVQRLYEALNRGDWEEFKSLIHPDATFHDTNGQSYDLDEFIEMLRKRDITRFQIDSVEVRQEGDTVKVTVHGTVHRSSDPKTFTVTHHWVFVRHGDEWYVVEVHEHTHNRS 658 PEDEEAIKEWLRRYFEAMNKHDVDKLLSLYHPDAQYTDTSRNQTFDYEQMKEMYESQSGQQTHIHVTHIEIQKHGDEVTVTVHVHITAHTKDRTRHIDVTYHFRFRRDGDEWKVVHVQETRRQT 659 PEDKEQIKEFKKRFLEALDKGDWQKVKEMMHPDAQYTNTSTQTTYDLDQLVEMIKSNSGKETHRQVHEIHIQQESDDFTVTVHVTVHTHTPTETRTYHVTYHDRYRKKDNRWYIVEVHETTHQT 660 MDSHILEEQARQIVRRFAEAFNNKDWEKLASLYHPDATFEFEETGTEYDLEEFIRWFRRLAETADIEIHFSIDEIEIRGDEATVHVTFHLTDRRTGRTTTYHSTFHVRYQDSEVKILRERITTRQT 661 MSEEELKEAVKDVIRRYVEAFNNGDLDKIASLYHPDASYYDSNGQEYDKEQLIEMLEKLFRQNFEMHFQIKEIRVDGDTVTIHVEFHVRDYSRQLTFTVHRTFHLTFTDSKVYITRDEVHTENNE 662 MSEKEQKEAIEETKRQFAEAFNKGDWKRLAELLHPDVRFHDSNGQQYDLEQFIRRVQKLFSQDVKMEFSIKEIRFDGDHAEVHVEFTVKHSQTGTTRWFDQTDFYQFEDSEVKIIEVRVRTVNGE 663 MDEKEMTEQIKEVVQREVEAFNNGDADTWASLFHPDARFHHSNGQTYDLEQVKEMIKELVKNNVRIEFSIKEIRFDGDEAEVHVEFHYHDARTGTTQTFDQTIRMRFEDSQVKIVSKRVHTKNGS 664 MSEEEQREAVKDMVRRWVEAWNNGDWEKLASLYHDDATYTDSNGQNYNKEQYIEMVKKQASQNLKLEFSIKEIRVDGDTITIHVEFHITDDRTGTTVTFTSTFHLTFYDSQVKITEQRVHTHNGQ 665 SEAEEAVRDMIRRWVEAWNTKDVDKLSELYHPDATFHHQNNQTYNKEDFRRRFEQLASSDFKIEVKSIEIQIDNKDEVTVTVHFTVTYEDTQTTTNITSTFFLRRENGRWKIVEERESRNQQQ 666 PNLEEAVRQVLREYFEAINNGDVDRVMSLYADDARWHTNNGETYDKEDLKRWYEEFASIPFHIEVKSIHIQINDDTHVTVTVHVQITHPETGRTTDVTATFHMQFQNGSVKIKEVHTHHNDHS 667 SSAEEDIRQVMRRYFEALNKRDADAVASLLDDDWTYHNSNGETYDKEQFREMVERYASIRFKIQITSMEIQINDKDSATVHVHATVTEEDTGRTTDITETHHLVRKNGSWKIIETHVHRNDRQ 668 SEMQEAVREWLKRYYELFNQRDWEKVASLYDDDARFHHNNGETYNKEDYERRLQSLASLDFTLQVHEIRVQIIDDTQATATVHVTYTNHHTGETVRITQHFFFRVENGQWKIKRDEEHRNRQE 669 SEMEEAIREVMKQLYTAFNTGDAELVDRLLHDDWEYHHQSGNTYDKEDFIKMFEEMASIPFRIQIDEMHIQIIDDTRATVEVHATITFESTGTTQHFTEEHHLRRKDGSFKVVETRVHTNDQQ 670 SDDEDAAEELARRFYESFNKRDWEKFARLVHDDATFTQNNGQTYDKEQLIEMFKSMASSRFHVQIDSLEVRIIDDTRVQVTVHVTVTFEDTGTTTHATHHWFFVKENGEWYLVHLHERRNDRQ 671 SEAEEAIRDVIRRLVEAFNNRDAEKVKDLYHPDATVHHNNGETYDKEQFIERFKELASFNFQIQILSQEIHIHNDTEATVHVQVQITEDDTGRTTDVHSTFHLRVFNGQWKIVEEHINRNDQS 672 SELQEKIKEFKQRMVEAFNNGDLDKISELVHPDVTFHHSNGQTYDREQFIKMVERMLSSRFHIQIKSMEIRIEDDTHVTVTVHLEVHFRDTGTTVEVTAHDHYRFENGSLKLVEVQIHRRDRS 673 PHDEEEIREWVKRFIEALNRGDLETLDRMLHPDWRFHNNKTGRTFSREEFKEMVERMKSNNTRVELKELHVEIKDGHVTVTVHLQFHTNHNGQTKTVDVTEHHHFRRSNGEWKLVETHATFHEH 674 PSDEEEIREWVRRFVEALNKGDMDKLKSMLHPDWRYVDDRTGQTYDLEEFAEMVKKLKSHGMRIEIKSLEVEVKDGTATVTVTVQVHTTHNGQQYTTTFHERHHFEKRNGNWYLIRTEVTVDHH 675 PSDQEKIKEWLRQFFEAFNRGDMDKLKEMLHPDWRYHNSNEGRTYDLDEFKEMMRQMFSNGIRLEVKSIEIHIHNGTATVHVEVDAHQTHNGQNKTVKFHETHHFDKKDGRWFLIRTEVTTHET 676 PSDEEDVRDIVRRLIEAFNKGDLDALRELYHPDARFHNDKTGQTYDLDEFIEMVEKLASNGTQIELKSLEVEVKDGHVTVHVHVQFHTTHNGQTKTVDVTRTIHFRRSNGEWKIIRDKATFNER 677 DEEEIKKEIKKLIERFVEAMNRGDMDAIDSIYDDDATYTHASGQTYGKEAFKRWVKEFLEKVEHIQVRSLEIEIRGDTATVHVHMEVTFKEDNKTYHFTSTFFFRKKNSTWYLSSERVTTQQDDG 678 AGKEAEEAIRDIIRREAEALNNKDYDTWKSLFHPGAQFHISATGQTYDLDEFVELMRKVFDPKRMEIKSIEIQTDGDEATVHVHFQVTHRKHNTTVTVTATIHVRRSNGQWYIVEKHIHFQPT 679 AGEEAEEAVRQWLRRFYEAINNKDMDKMKSLYTPGSTIWISDTGTSYDVDEFIEFFEKFFTAKRLEIKDMHIEVSGNTATVTVHVQVHLESTQQTYNVTQHFHFRREDGTWRLTEDHIHVQPT 680 AGDELKEAVKEWLERFYEALNKNDMDALRELFHPGATIYDSSTGTSYDIEEFLERFEKIFKMTRIEIKSIEIHTSGDTATVTVHVEVHFSRSNQTYRFDHTWHFERKDGTVRLVELRERMHST 681 SGEEAEEWVREWVKRFFEALNNKDMDALKKLFHPGAQFHDASTGTTYDLDEFLEMLEKIYQFYRIEVKSLEIEFDGDTVTVHVHWTGTREQSNQTYDATTTFVFERKDGTWRIVEVHIHFQPT 682 PEDQEEIKELKKRFLEAFDKGDMDTLRSLIHPGAQFHDSTTGNTYDKEEFLQRVAEFTSNVEIHRQVDRTEIQQHGDEYKVTTHVTVHFTHNTKTQTQHVTSHDRYRKDGDEWKLLESRFHFQQT 683 PHPEDETKIREIKKRIAEAMNRGDMDAIKELFDDDVTFTHESGQDFDLEEFLDWVKKLTSTADRIEVEIKRIEQHGDHVTVHVTVTVTNSSTGTTTDFHATDHYQKKDGQFRITRTHFTTRDT 684 TDPDAQEAVREWIKQFVEAFNNNDMEKLKSLYAEDATIEHSGGQRFDYEEFIKRVERRIRNSTFHLEFEIKHIQETTDEVTVHVQFHMHEEDTGRTFTYHSTFHFRKTDGGYKLKSEQIHRHQT 685 DEKQEELVRQALTREIEAFNTNDMDKWASLFAEDARFHNYTGQTFDLEEVKEMIKQMLSNTRLRFELHIISIEFRGDTVTVHTTLHVTDESTGRTTTIHQTIFLKIDDDDVRIKEKHVQEDST 686 PVDPTDEEAIRQWVRRFMEALNNNDLDKIRSLYAPDAQYHNASTQRTYNLEQFLEYLEKFLPGTHFEVKSLRIELRGDEITVEVHVTVTVHHKDKTVDIDVTRHFHFRRENGSYKLVRDQAHWDSKEK 687 PSMKELVEEWVRRFVEAINKNDMDALKRLYTPSDSRVHFDNRTFETPDEIKEWFRQHAENAKLEIKSIEIHTSDNEVTVHVHVTVTNDRTGKTVDVTRTLRFRIEDGSVKIKEDRVHRHDT 688 SDDEAREAVKRLLRRYYEAMDNGDWETLLRLLDDDWRYHDESGETITTREQFRERVERQAQHPTHRQIDSIEIHQDGDQVHVTVHVTQHHEETGTTVKVTDHHTFTRKNGQWRITRTQSHRDPRQS 689 DEEKEAKEWAEEWITRYYDLLDKGDWEAVLSLYDDDATIHVYNGVTYTSKESIEEFIRRWISESQNARHEIKRIEVEVRNGTVHVTVHVQVHNSSTGQTFDVTQHFEFRKEGDNFKLKRDEIHRRDTT 690 DEEDESREAIKEIVHREAEAFNKGDWETWLSLFHDDATIHIQDGETLTTKEQIRRWFEEVRKQAQFSSIEIKSIHIEVHNGTYTVTVHFQVTDSRTKRTYDFTQHIVFVRHGDEWKIVEKHIHRRDTS 691 PEEEEDKEQIKEWVKRWVEAMDKGDFDTLRDLYHDDATIHIFNGETVTTKEQLEEWLRRVLSQSQFSKREIKSIHVEIHNGTATVHVHGEVTDSRTGKTFKVTSTFHFEKHGDRWYLVSQHLTMHDTS 692 PVNEEEAKEQIRDWVRRYIEAINHGDLEAIASLYHDDVHWWARNQNKEELKRWYERFLRRFPDVRIEIKDLHIEIRNGTATVHVHVQVHFPGQNQTYDVTTTFFFEFQNGQIRLVEVRTDNQPT 693 PINDEEVEEALRQLYRRELEAFQKGDIDTWASLFHPDATFEGRKLDYEQMVEWFERILRTFPTMKVELKDMHIEVKDGEFRVEVHVQFHVEGTNRTFNVTFHDFIRVRNGEFQIVNRQMHQNDT 694 PINEEEQREQIKEWVERFVRAFNSGDLETLDSLYHDDATFDGTGTSKEEFKRWIEEFLRRFPDARMQVDHLEIRFKDGEATVEVHFTVHVPGKNITFHFTSTFFFKFENGQMKLTNEEVTRDTS 695 PSPEDEKTIREWVRRFIEAFNNKDLDTLVSLFDEDWTFHDANGQTFTTLDEFREWMERVLRTFQDAKMQLDDLEIRFDKDHATVTVHITIHDSDSNTTYHVTEHHHFRKDTSGWKLLETHVHTDQQPT 696 ASEQEIREAVKEFKRRLVEAINKGDMDTIRELFDSTDSEMHIWQGRTYHDQDEIAKWFEEFRKKFEVEIHITNIEIHIRNNTEVTVHVHFHVTDRRTGKTFTYHATDHYRFEGDTIKLKESRFTRDEHR 697 AHPEQQEKIRQIIQRYFEAMNNKDADKLISLIHDDWTYHDSSGRTFHNKEEFKEWVEEFLSKFDVRFEVKSIEIRLDDSTQITVTVHVDVTHTGTNQTFKVTEHHHFRLKDGDWKMVRTEVRTDG 698 PEEEEIKEIIKELKKRLVEAFNKGDLKTLRDIFHPDATFHDSNGETLTSLDEFIEWVKEWLRRFDTNLQITEIRIEIKSKDEATATVHITVHFEDGTTYTFTFHDRYRRHGDEIKIVESEIRTNNTG 699 PREEELKEQVEEIIRREFEAFDKGDWETWLSLFHPDATLHDSDGTTFTTREELRRWFESLRKRTDTAHQIDEIRFEIKSKDTITVEVHVTVHTSEGKTYTFRAEIHLTRHGDEVYIIEKRLHTHNTG 700 PKEEELKEQVKEVLRRFYEAFNKGDVDTLAELVHPHATFHFSNGETIHSRDEFREWFKEFKKRLDFRIEIKEIRFEIKDETNITVTVHVQFHRQNGQTFQVTEHHHLRRHGDEVKIIETEFRFNNTG 701 DDDQQAVKKLKKRFVEAFNKDPDAVAKLWHDDSQMHDSNGSTFNSQEEFKEWVTRLARHAQIHVDSIEVHSRPDGTIEVHVHMTIHRENDTYTVTATDVYRKKDGSYQIVESRFRVHQT 702 PSDEEAIREVIRRFYEAFQTDIDDLASLYHDDATMHLWNGRTFTTKEEIKEWFERLARTTDVHIDSIEVQTNPDGSVTATVHVTTHITNSTFHVTQHIHFRVQDGDWKIIRDHIHEQPS 703 MSEEQIKEWVKRYFEAYDKGDWETLVRLVDDDWQFHQNSGETIHSREQFREWVKEFLERFQDTAHQIDDLEIRGNTVTVHVTVHVNMNGQTFTIHVTEHHRFEGNKLKETHQHTNQQD 704 PDPRAIEQIKEWLKRFYTIINTGDWEKLAEILDEDWTYHDSSGQTYHDLEEFAEWVKEFNKQNFHMEIKSIEFRQDSRPGYYHVTVHVTVTQEGTGRKFDTTDHHTFRFQDGSIQLVSTQVHWRET 705 PEKELQEKAKEIKRQLVEAFNKGDWELVARLVHPDATFHHSDGRTFTTLEEFIEWVKQWSSQNWEIEIKSLEARVLPDEREVTVTVHYEVRNQTDPKTFRATTHDRYVFKDGQVYLIESRTQWHPL 706 DEPEAQEEIKEIVKQLLEILDTGDWEKLSSYYHEDATFYYNGRTFHTREEFTEWVRQFASNQSHHQIHSIEIHKDGDEYEVHVHVTVHFRRDPKTFKVTSTFRFRQTKDGLKLLEERVHRDDGQ 707 MSEEEMREALKEWFQRWAEAFNRGDMDALKSLYDKDAQMHISGQTFDNPDEIKEWFERLFRQNVKIEIKSLEIRMTPDSTTATVTVHAQMHNETDSTTWHFTAHFEFTFEGDTLKLKRQQTHIHQDDK 708 PSEKEIEEAIRELLKRFYEAINKGDWEKVARLVDKDWTFHYNGRTFTSWEEFVEWVKEFFKQKFRIQIDSIEIEIDSDQNNATVHVHLTVHNEDNPVTRHTTDTHHIRYEGDSFKFVETRVQMHQDDT 709 TSTKEAEEAIREFKKRYVEAFNNGDMEKLERLIHPDATMHVSGQTFTSRDEIKEWLEEMIRQQWQMHVDSLEIRQEPDPTHFTVHVHVTFHLDRNPTTVHATQTDHYRLKDDSFRIIRMQVHFHQDDT 710 MSEKEQEEAIREWKKRFVDAVNTGDMDKIRELVHPDARFEVDGQEFNNIDEFLEFIKQFFREQWRIHIKSLRIEFDEDSREVTVEVHLEMRNERNPTTVEATFEDHYRFKDDTLKLIETRVQRHQKDT 711 MSEEEMIEAVRQWLRRFYEAIDRKDLDALARLFAPDATMHIAREQREFDWEEIVRWFERFLKTFPRTAHQIDEQEFHIHGDTITVHVRVTVHFQDTGTTVEVRDTYFFEFENGELKLRRRESTFHQK 712 MDRSEQEEQIRQFKQRWAEAWNKGDLDTILSLLHPDVTFHFASYQRTYSYEEYREFFERFQKRFPNARLEIKRMEIEFHGNEVTVHVHFTVTYPDTNTTVDYTTTDRYRFENGELRLLESRTQAHQN 713 DEEEDREEIKEWKERFLEAIDKNDMDKLRELLHPDATWYNGKHPQESTLEEVLEWLRQFWETFKDTAHQLDSLEIRFSDNTATVHAHVTVHFHHNGQRYTYRVTATDHYVKRGDEWKLVRSEEDRRQS 714 TSEEVKEHITEVVRREIEALNNGDMDTWRSLFHPDATVTFKSEQRTYHLDQVVEMIKEFLERYPDTHMEIKDLHIEQDGNTVTVHVHVTIHVRHKDGTITIHVTATIRFRLKDGDWQIVHKTVERHQEDH 715 ASEEDQREVREIIEREVEAFNKRDLDAWMSLFHPDARMTVAAHQQTYNWEQMRRWFKTFLDQYPNTHMEIKDLHIDQSGDEITAEVHVTLHITNKDGQVTIHVTATIHFRKINGQWFIIRKEVHMRQEDT 716 PSKEDQEKIKEIIQRELEALDNKDLDAWFELFHPDAQVTDSRTGTTYSAEELREMVEEWLKKAKDTAHELKSLEIEQDGDTYHVTVHVTAHVHHKDGTVTYHFTAHLTFEKRNGQFYIISKHVTTRREET 717 ASKEDQEDIRELINRFFEAINRNDVDAVKSYLHPDATFHFASEQQTYDLEQFRKWLEEFMSHFKDTRIEIKSMEIQQSGNEATVHVHWTLHAHTKDGTFTIHGTTTLRLRKENGKWKILEVRISIDRQKT 718 ASEEDKEEIRQIKQRLFELFDNNDADALRSLFHPDATFEFEESQTKYDLDQFKEWVKQFFRTFQDIQHEIKSMEIEQHGNEIHVTVHVTLHITFPNGHVTIHATYHDRYRLINGNWYIVETTVTFRQEDS 719 THEEAERQARETVRREFEALNHRDIDDWASLVHDDAEFHYESSPQTYNKDEFREWVERQLKSWSSFRIEIKSLHVEQRGDEYTVHVHVTVHFDETKTTTHFDFTIHMRRKDGEVYILEKHIRTHHE 720 TDPEQEEKIKEWLRQFYEAWNRRDLERLAELLAPDWTYHSNDGNTTYDKDQFKEMVEEFMRKFSRFRLEIKEVHFEQRGDHVTVHVHAQVHNPQTGTTTHTTDTHHFRFENGQLRLTHTHSTTYHS 721 THKEAYEEIKEIVEALAHAFQTRDLEKLKSYYTDDAQITFSDGNQTYNKEEFARIVERRLRELSDFRVHLTSLEVEQRGDEFTVHVRFQMHNNSTGETYEFRSTIHIRRENGRWKILSEKITTHKT 722 TDPSAREKIKEWLERFYTAWQEGDLDKLESLLHPDAKFHSGNGNQTYNKEEYKEMVERFMKSVRSYRVQIDSIEVHQDGDEFHVTIHVTFHNDDTGTTVRVTNHDRFRFKDGDLKLVEHRSTHHHE 723 PSDEEAAREIVKRFAEAFNTDPDAVAELIHPDATVHIYNGTTLTTKEEIKEWFTRLISNTRIEIKSIEVHKNPNGTVTVRVEWTMHRKDQTYRGTTTFFIEKRDSEWYILEVRIHVQPT 724 GDPSDEEEIREILKRFYEAMDKGDMDLIRSLLHPDVTMHLPNGQTFTNLEEVIEWIERFHRNFPHHRSLDSIEIEIRGNTATVTVHVTIHFPGENQTFHVTHTWFFRKKDDTWRIVEMREHRDDKG 725 MDKDDKEEVKQFIERYYEAYNKGDIDALAELVHDDAQFHYNNGETLNSKDDFREWVTQLLSKFPSQVHIHSIEFRASGDEITVTVHVTVHHDGSGQTVHVTDHYIFRKEGDRWKIVQVHSHRDTRD 726 PSKETEEALREWIRQYIRAINERDVDAIHSLYHDDSTLTNQSEGRTYDAEEIREMYERFLKTFPRTTLELKDLHIEQRGDTATVTVHITIRFWGEGRHVDVTYHFHFRRSDGPFKLVHVQVRADDKHS 727 ASKEDQEEIREILEREFRIWNNHDLEAWEELLDKDVTVQYSDTGTRYSADEVKEMIEEILRRFPDARIQIDDMEIRQDGDEYTVHVTYTVTFTGTGQNITFHATFFFRKSDGPWKVISKQVRVDRRTQ 728 PSDKAEEDVRQVVRRLVEAFNNHDLDALDEIYAEDVTWHDSRTGQQYSKDEFRERVERIMKTFPSMHIEVKDLHIEQRGDEVTVTVHYTQTFTGTGRQSNITSHFHLRQKDGEWKIVREHVTTDDSQT 729 PSKEDEERIREWVRRFYDAFNKHDFDKIAELFHPDSTYHDSRTGTTYDYEEFLEMVERFLRTFPDFRMEIESLRIEVRGDHYTVEVHFTVTFSGHGDNVRVTDTYFFRKKDGPFKLVEMRSNIDNVRT 730 AGEEDREAIKDLLRRFYEAIQKNDMDKLRELLHPDARFHDARTGQTYDKEEFLQRVQEFWERFQDINVEIKSIEIDADGDTITVHVHVQFHVNTPTRTQTFNVTETHRIEKHSNDYKIVETHIHTNQT 731 SSEEEMREKIKDVKTKFIEAMNKNDLEALAELVHPHITLNSANLHTRDEFKKWMKEWLEKFSDAQIQVDEMHIQINSKDTATVTVHVTVHNKSTGVTFKFTAHDVYRFEDGSVKIVSSQIHTDNGS 732 SSEEEMKEAIKEFKKRLAEAFNNNDLDKIRELFAPDVTLNSANAKNLDQFVEWVERWLSDWKDFNIQITSIEIRIDSKDTATVHVTFQVTDARHNVTFTFHATDVYVFKDGSVKIKSVEIHTDTRS 733 MSEKEMEDQIREVLKRFYEALDKHDLDTLDELLHPDWQLDSQNLTTREEVQRWFTKWLSEFKDSNHQIDEIRIEIKSKDTATAHVHVTVHDNSTKQTFHVTETHFMVFKDGSVKIVRTRVHRDSGS 734 MSEEEMKEAIKQVIERFYEAFDRGDMETIARLVDPHVTNRSRGIKNREELIEHLKRLVEEFKDVNHEIKEVRIQIDSKDTATATFHVQQHDSRTNTTYRVTDHYFLEFKDGTVKIVSVQSHTDTGS 735 MSEEEMERAIRETIKRFYDALQNNDRDKLRKLVSDDITLRSSGATTKEEFIKWFEEWLKTFKDFHVHIESLHIQINSSTSATVTVHVTFHNSSTKVTYHITDHYFVRFKDGSIKITHVQSHTDSQS 736 PDPRDEEAVRDMVRRMYTALNNKDADAVRELVHPDSQFHIYNGRTFNNAEEFTEWVKEWLKNDARVEIKSIEVRQDDDTRITVHVTVEIHYKHGPHTFTFHHTWFFVKINGSWKIKEVREQRDSS 737 PEEKEIEEAIRRLLERYYRAMNNGDHDALKKMLHDDWQMHIDGQTYNSKEEFEEWLRRMLSQGVRLEIKSIEIHVKDGTATVHVHVQFHNSSRPQTFTVTETHHFRRINGQWYLIRTEIHRDSN 738 PEEEEAKEKIKEFKHRVIEAINTGDWEAIARLFHPDAQMEVNGQQYDDLEEIIRWIQRLHSQNVQIEIDSIEIETRNGQYHVTVHVTVHRRNNPQTYTVTFHDVYRFKDGSLKVIRTEVRTDSN 739 PEEEEAKRAAKEILERFFEAMNKGDWEALERLFHPDAQMHVDGQTFNSQEEIRRWFERWFSADVQIQIKSIEFEIKNGTITVRVTWDAHNSRKPQTFTFHTTVHLEQQNGSFKITRMEIHTDDN 740 MSEKEMEEAIRDWLRRWFEAWNKKDMDTLKELYAPDATFQHSNGRTFRTLEEIMEWFKQMLDQDVKVTLHSVEFRMHDETHATVTVHMTFTNDQTNTDVKATAHFHFQFDSTSVKLKRQQVHEDST 741 YSEEEAKELIKEVIKREFELLDSGDLDAWLSLIHPDATFHDSNGITFTTLEEIAEWVKQMFEQNWRHRITSIEIRVDSKDEVTVHVHVKVQQESTGRTRDVTFTDRFRFDKDSVKIIERQVHYDST 742 TDESDIREWLKRFYESINKGDLDAIEELFHPDATMHLSNGRTFTTLEEIKEWFERLAKRFDIKVEIKEIRIDGQTVTVHVTVTRTHRSGKTQHMTVTDHYHFEGKKLVEMRSHFDTKDQT 743 AHEEEIRELLRRYYDAWNKKDVDALAEIFHPDATFHHSNGQTFTNREEFREWAERFMKRFDMQIEIKEIRVDGQEATVHVTMHFTHSDGSKQTARVTEHHRFRGKRIVETHQHIDMRDVT 744 ADESDAREWIKRFFEAFDKGDLDALAELVHPDAEIHVPEGITFTTKDEFKEWVERLFKRFEFHHEIKEIRADGNTVTVHWTLHVTHSNGETYTATGTTHLRFEGKKLVEMHIHVDMKKVT 745 MDEDELKEAVERTMRRFYKAFDEGDADTAASLVHDDWTYHQSNGETLTTREELKQWVEEWFKQFPDTRREIDSIEIRVGDETEVTVTAHFTVHFTHSNQTRHTTDTHRFQFQNGSVKVIETRSHENG 746 MSEQEAREDIKDIIRRFIEAINKGDMDKVRELYHPGATLHIDSGVTYTTLDEIIKWVAELASNNLRIEIKDMRIEQNGDRATATVHVKVTNESDKRTVDVTSHIHFERTNNGFKIVEEHVNTQN 747 YSEKEAREQIEEIKRRIIDALNKGDMDAIKSYFHPGATMHIWNGQTFTDLDEIKRFFKEMHDNNFKFQLDEIHIEFKGDEATVTVHVTVHNDSNPQTYTVTAHDRYVYTNGQWYLVESRFHMQD 748 MSEQEIREDIEDIIRKFYEAINKGDMDKLRSLFHPGATFHDANGTTFHDLEEIVRWLKQIFDQGWELEVKSLEIEIRGDTVTVRVEVTMRNRSDKQTYEVHDTYFFHRSENGYKIVRVESRIQD 749 PGEEEIKEAIKEFLRRFYEAFNKGDLDALMRLVHPGVTFTQDNGRTFKTMEELREYFQKLIENNFRLHIHEIRIEIKDGTATVTVHVTIQQQTTGKTVRVDHHWFFRVEGNRVKLVEVRSRTDDDN 750 DKEKKTREQIEDFKRKEVEAINRKDLDKIKEIIKDAQYTNSDTNTTYDADEFVEMVEEWARRFPNAEIHIDSIEIHIDPKGDHATVTVHVTIHYKDTGETRHVTYHDHYRQEGDELKLVESRFTTTNG 751 PDEEEQREQIKQWIERFYEAMDRGDWQTLKELIGDATFHNTDTQQTFSADEFIERVRQFQSQFPNVHRTMVSIEIRFDPRGNHITVHVTVEVHIGETKQTHRFDNTDFFRLEGSQWKLVHHRFTTRGG 752 DTEKMEQDIRELIRRFFEAFNNKDADAMASLLHDDAQIHFEEDKKTYDKEQFREWVERVLRRWPDTKVQIDDLHIEITKDHVTVEVHWTVTFNRNGKTHHYHGTTTFFFRLKDGQWRIVELRFHLESRD 753 DGGEAQEQIKELVERFYEAFNRKDVDKAMSLVHPDATFHFEEDPKTFDKEEFREWLERFIRTFPSHQLDIDSIEIHIDKDHATVHVHVTVHVNKDGKTYTYHFEETHHFRLVNGQWYLVETHIRYEERG 754 DSGKAEEDIRQIKRRFIEALNRRDVDAFMELVHPDAQFHFSSDPKTYDKEQYREWLERFFRTFPRVHIEIKDMEIRVDKDHVTVTVHVQVHVTQNGKHETYHFTYHDHYRLKDGTWQFIESRVTTDQTD 755 DSGEMQEAAKEVVKRLVEIFNRNDADAFASLIAPDWRYYDSRDPKTYSIEEFREMVKEFASRFPDTKVQIKDMHAEVTKDHVHVTVHVEVHLNQNGKTTTTHVTEHHTLRLENGSWKVVSTRTTMETRE 756 DSGEMQSAARELINRFYEALNNKDWKKIADLIHDDFTFEDSRDPKTYSREEFIEWVQRWMKQFPDARLQIDSQEVRVDKDHVTVTVHVTMHTNHNGSTITFHITHHWFFRLENGQWYIVRLRETMESRH 757 PSEEDERAIREIKKQLVEALNNGDADRFASYYHPDATVHTSEGRTFTTREEIKEWAKQLFSNNIRIEIKSIHIDRDGDRATVQVHVQFHNSNTGTTVDFTAEDHYQKKDGDFRIVEVHIHRDNGG 758 PSEEDQRAAKDIKRRLVDALNKGDADTFASLFHPDARIHFSDGTTLTSRDEIREWVKKFFSQGWHIEIKSIHVDQDGDEFTVTVHVHLHQERTGRTFTVTAHDRYRVKDGEWYIIESRFHFDNGG 759 PSEEDEKEIRDIIRREVEALNKGDADAWASLFHPDATYHLYQGRTFTTREELKEWIERFTSQGVHIEIKSIHITQDGDRLTVEVHVTYTNDSTGQTFHMTFTDHFQLQNGEWKIVERHVHVDSGG 760 PSEEDQRAIKEILKRLLEALNKGDADALLSLFHDDWTLHINNGETYTTKDEFREWVERFFSQNFEVQLDSVEIRQDGSTFTVHAHFTVHNRNTGQTFRVTETHHFQKKDGQFYIIETHTTHDSGG 761 PSKEDEEAIRDLLKKFYDALNNNDLDKLKELLHPDWTYHSSDGRTFTTKEEFAKWVEDLWSQNFKFDIDEIRITQDGDHFTVHVHVTMHDSRTGRTVHATDTHFFRKKDGQFYLVETRTHWDNGG 762 PSEEQKEKIKQWYERELDAFNKGDADAWASLFAPDATMHLWNGETFHDREELKRWFEQMISNDIKIQLDSVEIHVDGDEVTVHVHFTFHNDRTGQTFHVDATDRFRFENGQLKLIERHVRRDNGG 763 PSKEDEEAIREILKQLAEAFNKGDADAFASYFHPDATFFDHDGTQHNSREEIKEAVKKLFSQQFRVQLDSVHIDLDGDHFTATAHWTFHQERTGRTFTVTTHVRFRKKDGQWYIVEFRMHLDTGG 764 PSEEDERQIREFDRQRLEAFDKGDADKVKELFHPDARIHFYDGRTITNAEELAEWVKQFASNDVKRIIHGQRIEQDGDEFHVTGHFSLTDSRTGKTVRFTYHITYRKKDGTWKIIRMEVRVDEGG 765 PDESQIRDFKRKEVEAFNNGDMDTLRSLYDEDARVHTSQEQVTYTTRDEIVKHFKELLEKFPDMRIEIKEIHVDQDHATVHVQVHTTQDGKPVTFRVTVHDRYKDGKLKETQFDIDNHPD 766 PDESEIRDWLRKYYEAIDNGDWETVASLFHDDATVHYSKYQVTLTTKEEITRFIRRFFSRFRNSRHEIEEIRFDQDTVEVHYTATYHQDGKTTHRRATDTFHFKDGRLVEVRSHWDDVPD 767 DKEDEAREAVKEWVRRFVEAINNKDVDAIASLYAPDATMHINGQTFNDWEEIRKWFSQWASRADLQIHVDEQEIHITDNTVTVHVRMTIRNKSDPTDYEYHSTFHFTKEGNSWKLKEEHVHSRQL 768 DEDEEIQRAVKEIIKRLYDAFNNKDLDALRELITPDWQNHTNGQTFTDLEEVVEWIERYLKTFDTRLQIDSMEVETSDNSATVHVHVTAHHPEDPKTFTITETHHIEKNGSQWRLVETHVQSHEQ 769 DEEEMRQKVKEMVERHIEAFNKGDLDKLESLYHPGAQFHDSRDPKTYDLEQYKEMVKELFKANVKMQLDSIEIRINGSTEATVTVHVTVTNDSTGTTYRATRHIRFRFKDGGLKIIEDRATFREQKS 770 DEREMEEAARQTIEREIRAFNRGDLDTWASLFHPGAQFDDSRDPKTYDLEQMKEMIKELIKANFRLELKSLEVRIVGRTEATITVHVTITQDQTKRTYQATFHFHIRFKDGGWKIVKKEARYREQKS 771 PEEELKKIAKEAVEREFEAFNKKDMDTWRSLIHPGAQYHDSRDPKTYDKEQLTEMVKELLKADFQLEIKSITIEIEGRTHVTVHVHFHMTQPQTGRTYTVTTTIRFEVRNGSVKIVEKRTTTRQQDS 772 DEEEAKKEIERIVRAFYEAFNKGDLEAAASYLDDDWTLHVDRGRTITTKEEMREYLKQLLDNGIQLHIESIEVRVHPDKTHITVHVRVQVTNRSTGSTVTADDTHHFRRENGDFKMVETHITHREE 773 DDKELEDKIREVLERLYRALNNGDMDTFMSFFDDDWTFHDSSGQTFTTKDEFRRWVERFLKAGWKIEVKSIEIHIHDNGEEVTVTVEVHIHNDQTGQQYTIHDHHFIRFENGSLKFVETRVQYRNE 774 DEEEIRQRIEEIIRRLYEAINKGDLDKLRELIHPDATFHFSNGQTITNIDEFLDWVKKFTESGFKMQIHSIEIRIHPNKDEATGTVHFTLQNDRTGTHYRVTDHYFLRRKDGDWKVVRVQSNIHSE 775 PEEEQKKAAEEAIRRLYEAFNKGDVDAMLSLFDDDWTFHDASGQTYTDREEFKRWVERLLSNNIHLQIRSIEARIDKDGSTVHVTVHAEMTNSTTGVTYTVTEHHTLRFENGSVYMVETHIHIHSE 776 PLSEKELKEQVKELVKRYYDALNTGDLDTLLSLLDDDWRMHQKTQTWNSKEEFKDYVTKFKSNTNAEIQIRSMEIQIHGDTATVRVHVDVTIRNTGTTITYRDTHHITAGSNQAKITETKSDEDN 777 PETSPEDREEIKRWVERYAEAFNKGDVEALASLFDDDWTFHDSSTGTTLTTKEEFKEWVKKLLSNDVKVEIKSIEIRTVPNGTIQVHVHVTYHSKDTTVTVHETHHFQKEGDTWKIKETQVHFHQE 778 NPTSEEDKKQIKEIDQRRIEALNNGDRDALEELFHDDSTMHDESTGQDFTTKDEIKKWYSEVFDGDFKMQLDHLEIQSTDNGTVEVEGHATLHTKNSTVHVRYTVRYQKRGDTWYIIHVRYNFNQS 779 SQTSPEDQKEIKDWIRRFFEAINKGDADAVASIFDDDWTYHNKSTGQTYTTRDEFKKWVEELFSNDAKIEIKRLEIQSNDDGTATVHVHYTMHVKDSTFTVTEQHHFEKEGDRWKIKETHTQIDQN 780 SSEEETKEAVRQWKKRFVEAFNRGDADELRELFSPDVQMHFSNGRTFHNREEIVQFFTKQTQNGTKLTLKHMEIQIHSENRVTVTAHFEVHDDRDNKTYDMTTHDRYELRGDDWYLVETHIHIHQQ 781 YSEEEIKEIVKDVVRRWAEAFNRGDWETLLDLYHDDATMHISNGQTFNDPDEIARYLTSLASQDRKMDITHIEIQIESENHATVHVHFEVHDSQDNKTYTFTSTFFIVFRGDGWKIVEQRIHTHQT 782 PEDQEDIETWIRRFYTAFQHNDLDKLSELLTDDWTFHYVRDDERQTYDRDQFREWVERIAKTFKDIRVQLDSLRIEIRGDHATVEVHFTATFHQDGKTHTVHTTDTHHFRRTNGGWQIKETQFNLEQRSD 783 DEEEAREQIKELVERWAEAFNKGDLDALAELLTDATVHYSYDKKTLTTKESIKEYYERVFRTFPGSQIELESIEIHFKDGTAEVHVHWTQTIPQTKEHYTGTTTFHVEFHGDDLKIREVRITVDSN 784 DEEEAEKEIRELKHRFVEAFNKGDLDALLEMLHPDATYHDSSGRTFTTPEQFEEWMRRFLSFKVQIHIDSIEIHFSGDTATVHVHLTVHRDGTGQTYKYTATDHYVRFGDTWKIVRVQVHTQPT 785 DEEEIKSQVEEFDRQRLESFDKGDWEAILRMFHPDATFHDHNGETLTSWEDFREWVKKFASNQTHHEIKEIRIEVRGNEVTVHVHVSVRYSKTNQQYKMTYTIRYRLEGDEWKIVEFRAHLQPT 786 DEEEQRRQVKEWVHREIEALQKKDIDTWLSLFHDDFTLHISNGRTFTTKEQLEEFFRELASRDFRVEVKRIEIEVNGNEVTVTVHFTVHHDKENQTVDVTAHIRIRFEGKELKVTEKRMHFQPT 787 DEEEMKRQARDWLRRWFEAFNKKDVDKILSLYDDDATFHDGNGRTFNSRESIEEWIRQFLSRDARIEVESIEFRVDGDHITVHVHFTVHFSHTGKTVRFTATFHFRREGDELKLLRQQIHSQDT 788 ADPSAQEAVKQLVRRWVEAFNKGDLDALKELYDDDAQIHISNGQTFNDKEEYARWVEQLSQSAQLEIHGIEVRPTSKDYYTVHVNITMHVKDTGTTYHFTATFFVKRHDWKIVEQRTHFEQRG 789 LDPSQEEQARQLARRFYDAFDKGDADKLKSLVDENWRLHVSEGRTFQSKEEVAEWVQKFADGTAHKMDEIRVQLDSDKDITVTVHVTVHNKKTGTTVTVTDTHHVKADDPKIAETHMHYNQHG 790 LDPSQEEIIKELVERMVEAINKGDMEKLKELYHDDATFHAYNGQTFHDKEEFLDWVRKFASDAKLHITGIEVRPDSKDHITVTVHVEVRFDSTGTTVRFTSHFVIRNNDWKIQEEHLHRDNTG 791 TDPSQQEAIKELIRRFIEAFNKNDMDTLKELFDDDWQFHHASGQTFNDREEFLEWVEKFARDYKLQLHSIEIESVSKDTVTARVHVTVHQDSTGRTAHVTETHFFKNNDYKITETRVHYDTRG 792 ANDEDEEAVRQVLRRWFEAWNKGDWETLLSLYHDDARITHADTQTTYDKDQFREMYESQLSFDIKISVHSIQFDRASSHTITVTVHFQMHVNTPSRTHTVDVTTTFHLRREDGRWYIVEQRTRRDNKQ 793 PGDETEEAIRQWFRREVEAWNKGDWETWLSLFHPDVRYHNADTGTTYNAEDLRRMFEQIQSVPFRLELKSIQIDQFTETEITVTVHMQWHFHHKHSTHTVDVTYTDHFRREDGDWYLIERHTQTDNGQ 794 YDKSAQEAIKEWVEREAEAWNKGDWEAWASLFHPDVQYHNNDTQTTYNLEQLKEMFRQQQKIPHRVEVKHIEIKEMTDDEVKVEVHVQVHFHQKTREWTVDITATFVFRKDDGDYYLIEKHEQRDNKG 795 ADDEAERQIREWLKRFYEALNRGDIDAVREMLDDDWRYEDAQRGQTYDKDQFIEMVRRMQSIPFQIDITHIEFKRSSDTDITVTVHVQLHVHHKDSTHTVDATDHHHFRNEDGRWKIVRTQTHRDNKG 796 ADKEVQEAIKDWLKKWFEAFNRNDFDAIMSLYAPDATVENSGTNYEQFERWLREFLKNFQNSSLHVESVEIRLHPDKKHATVHVTVQVTEHHGDQTHHFTYHYTFHFQRTKDDWKLKRQQTQPDTG 797 PSEEQKKAMEEWVRRYIEALNKRDADKLVSLYDDDATIHVNSSNKEYSKEEFKEWVERMMSIPFRVQLDRIEVELKPGGEITVRVHITITFTRNGQNYTFHGTQTLHFRYDESSWKLVRHEITYNQD 798 PSPEDQEAIKQIKRRLVEAFNHKDIDKLSELVHDDSTFHFYTSGTTLDKEQFREWVERFMSFDFRIQIKSLEIRLDSGGEIRVTVHFDLTMHHNGQQHHVHVTAHDRYRRGDNGWKLVESRIRFDPD 799 PSDEEIAKELVRRYVEAFNKGDIDKLASLYHPDARMHDSSKGTTYDREEIIEMLKELIKRGVKIEVKSIEVQTHNGEVRVTVHVTLTDDTTGQTFHVTRHIRFRKDNGDWKIVEDTFTTDTG 800 PDDHEQVRETDERRIEALNKKDMEKIKDLIHPDATFTNSSEGQTYDREEYIERVKEMLKRGVKIELKEIHVEIRDGDATVHAHMQVTHDETGKTFNVTYTLRYRKSNDKWYLIEVRVTVDDG 801 PSDEEAVRETDRRRMRAFDEGDMKKVSELLHPDVTFHFDSENRTYSRDEFLEWAKQFISQGYHHEIKSIEIHVKDGTVRVHVEIDQHDRRTGRTFKIDYQVTYVKNNDEWKLVELRYRRDEG 802 PDDKEQIEEVDRRRLEAIDKGDIDAVASLYHPDATVHYSSQNRTYDKEEFLKMVEEMASQQTAHEIKQIDIQTKDGTVTVTVHVDVTFANTKTTVHVTYTIRYDKQNGEWKIVEVRITTDTG 803 ASEEEAKEQIRQFKRALVEAINKGDWEALERLITPGATFHHQSGETYDAEEWLEMVRQTIEKFPHRVEIKELHIEIHPSGTEAHVTVHLQVHFTHNGKHETYTFTYHDRYRFKDGRIYLVSSQVHEDSN 804 MSEKELEEAVRETLRRYYEALDRGDMDELRDLVDDGWTYHHASGETYSAEEFLEMVRQYTETFPTAHQIDSIEIHIDPSGTEVTVHVHVTVHTTHNGRTRTVRVTDTHHLRFKDGSVKIVETHTQEDST 805 SSEKEIREAIRDIIRRLIEALDKGDWEALDELYADGATFHHWTGETYDKEEFIEMVRRFTERVETAHQLDSLEIHIHDNNRDVTVEVHVTVHENHNGQTHTRTYTSTFHLRVFNGEWRITSEHIQTDST 806 MSEEEIKEAIKEILRRFFEAWDNKDMDTLRELFAPGATFHEYNGQTYDYEEWVERVEQTLRNVDTAHQIESVEIHIHPNNTTVHVTVHWTAHRHHNGQTHTVRGTTHFTLRRENGDLKIVEMRTQEDST 807 MSDEEAKEQIKRFKEQWVEAWNKKDIDAIKELVTPGAQFHHQSGQQYDAEEYIEMVEEILKKFDATLEIKSMEIQKNDNNKEYHVTAHIQAHFTHNGSHETYDFTYHDVYRFENGQLKLVRTETHTDST 808 TSDKEAEEAIRELVKRYAEAMNKGDIDTISSIYAPGAQYHNWSGQTYDYEEYLEWVKEFRSKFDFRLEIKSLEVHIHPNKRTVTVHVHITVHHTHNGEQHTTHFTSTMHFRNQDGEFKIVEEHEQTDSG 809 PSKKDQEDIKEWIRQFYEALNKGDADAVAELYADDAKYTNNDTQRTFDKEEIREMVEELFKNNTHFEVKSIEIRMQDENTFEVTVHVTVHTNHGNQTHTNQYTQHFRFEKHNGRWYLTSDQTQSDGE 810 PSKEDEEEVRELIRRFYEAINKGDMDKVRELLTPDIRFHNRSTQQDYDLEQFLKHIEELIKNDTKMEIKSLEIRQDDKDQITVTVNVTATTNHGDETKHRHVQHHWFLRRENGSWKIVEVQVQTDGS 811 PSKEQQEKIKEWLDRFYEAFNKGDMDKIRELVTPDVKFTDEATQRTFDYEDWLKRIEELHRSDVHIEIKSIEFRVDSKDEVTVHVHLTVHQNRGDQTHTNHVTHTWFFRFENGSLKLVEVRVQFDGT 812 PSKKDEEDIRDFIRRYFEAFNKGDLDALYRLYAPDATLHIESEQRTYDQEEIREWYERVLRQDTKIDIKSIEIRKVDDHEFTVTVHVQAHTNRGDQTHTAHVTFHFFFRKENGEWKLVEVRIRTHGS 813 DDQEDKEAIEELIRRWFEAFNKKDWEKVASLYHDDARVHFASHGRTYDKEEFIEWVRTMLSFDVTLHVKSIEIHFSGDTVTVHVEGDATFHHNGQTYHVTVHSTFHFVKYGNQWYLTEQHIQFDQT 814 DEPEQRKKIEEVVRRYFEALNNKDVDKVLSLLDDDWRYHNESTQRTYSKEEFREMVETLLSLDSEHRIQSIEIQLSGDEATVHVHVQVHTNKDGTTHTVNVTETHHLRQEGSQWKIVETRVTYNPT 815 DTPEDQEAAEELIRRFYEAFNRGDVDTAASLMDDDWRYHNNSEGRTYDKEEFKEWVEQLLSQDTHLHLKSIEIQTSGDTYHVTSHWDATFNRNGQTFHVSTTDHHRLEREGDQWKIVETRVTYRQT 816 PSDEEAVREVIRRFYDALNRGDWEELRRLVDKDNWTMHNNNQTFKTWEEFREWVERWFKNAQVEAHIRRIEFNGSTATVEVEVTYHHGDQTYHSRDTHFLQKRGDTWKMLETRIQYQE 817 NDAEEQIREFIEREAELLNRGDIDAWADFLFDDDKSTFHYNGQQFTTKDEIKEFIKQMVSNSHFELHIDRIEIKDKTTVTVEVTIHITHDNRHRTVHTTFFFRVENGSVKLTRKETTTHQQ 818 SDLQEAVKEFIKREAELLNRGDIDAWVEFVFHDDHSQFHVDGQTFNSKDEVKEWYERMVRNAEFEFHIDRIQVDDKDHVTVHVTVHVHTENSTFDVHVTIVLQFKDGDLKILSKHVHRQQQ 819 ANQEQIKEWKERFVEAFNKGDADKLAELFHPGVQVHFAQGRTFHDKDEIREYLERLARHFEMHMEEIRIQIDGDTARVEAHVRITDKRTGTTYDVTYHDVYRIENGQLKVVRSEERTRST 820 ADQEQIRQIVRNLIEAINKGDLDALMSYYHPGSEVHFSTGRTATDQEEIKDWFEKFARFVQLHLDSIEVHTHGDTATVHVHVTVHDRRTGNTYKFTSEIHFTRQDGTIRLTSEHVHMQPS 821 LDKKQIKEWVEQYIRAMNEGDADTLASLYTPGATVHFSSGRTFTDQEELRQWYENWARDFHVQLDSVEIHIHGDTATVHVHMTVTNDKTGTTVRVTMTIHFQVENGQLKVKEVRITFQPT 822 PDKEQVKEWVKQYIEALNNNDRDTLSELYDETKASMHVNGQQYDFDQIVEWYSRYLSQVTQFQLDSLEIRIKDGTVTAHAHVTVHVKHGNQTYRMTATFHFRYEGNTLKLIRVHYHHHQEN 823 PEDKEIAEEWIRRMIEALNKKDADAVASLYDSDEATMHIDGQTFTTHEEIKRWIQEWLSKFDVQIHMESLEIQIHGDTVTVHVTLHFTDNKTGITFTVHRTLHFERRNGTMYLVEDRLHRQSD 824 PEAEEQVKEAVERFFEAINKGDWEALERLFADNKATIHIDGQTFTTAEEFIRWFKEFRKKFDVTVQVDEIRIEIRGDTATVTVHWHMTDKSTGTTFRVTTHIRLENEHGTMYIVEMRIHTQDS 825 PEQEEKVRQLKKRLIEALNNKDWKTFADLFAKDEATFHFDGETLTSKEELIRWFRDFLEKFDVKITPEEIHIELDGDTVRVTVHVQFTDDSTGTTFTADQHDFYVNKNGTLYIVRVEETTKDS 826 PEFQEQVEEWKRRFIEAWNKRDLDTLADLFDKDKATLHWDGQTFTTKEEIKRFLEEFLKKFDTHIHMESFEIRLKGDTVEAHFHYQGTDNKTGVTFTFDTTDVYVNENGGMKILETRVHTKSD 827 PEDKEKIKEWIRREIEALNKKDLDAWASLFDKDESTVHIDGQTFTTKEELKRWWEEFLKKFDVHFHLESIHIEIRGDTIHVTVHVQVTDNSTGTTVTFTAHIRFERQNGGWKLVEKRVHTHNS 828 PEIKEQIKELKKKFVEAFNKNDVDALKELFDKDKAQFHFDGETIHTADEFREWVERFLRTFDVQMQMDGIEIHLDGDTATVHSTFQVTDNSTGTTFTVHATDHYVRENGTLKIVRTQFHTQSD 829 PDIEEAAREIVKRLFEAFNRGDWETLVRLYSDNKSQFHYNGRTFDTWEEFVKWVKEFASQWQLHVDSQEIEVKDKDSATVHVHVTMHHKTKTVKFTSQFHMRREGNEWKVVREHVQTDGT 830 PEEEMQKHIKEYVERYYTAINNNDLDTLESLIHPDWQLHNSNGRTWNDREEFKKTVEELFRRNIRIEVKSIEIHIHDDGSVTVHVQVTIHHEGHTTVQTRDTHHFQREGDKFKLVETHIQYIPT 831 PEKEAKEEIKKMIERFFEAFNKGDLEKLHRMLHDDWQFHLWNGQTFNDRHEFAEWVRQMHEAGVKMEVKSIEIETNDDGTYTVHVHVKVHTPGNKTYDVTETHHIERHGDQFRFRETRVHMTPT 832 DDEKEMEEAIRQWLRRYVEAFNNKDLDTIKELFDEDWTYHHTNGQTFTTLDEFEEWVERFLKRFDFEMHITQIDIQIFGKETVTVTMHVKVTFRETNRTFDITEHHHFERKGDEWKIKETREHRQPT 833 PEEEEMKKQIREVLRQFYEAFNNKDLDALSSLVHDDATFHFSDGSTLHTKESFRDWVEKFLKRFDFRIEITSIEIRIHGTHEVTVHVTVHVTFNKEKRTYTVHETHFFRRDSTEWKITRTQFNWQPD 834 PDPSAEEAAKQIVEELVRAYNEGDMDAFEEAYHPGATMHLPNGQTFTDLEEIKEWYERFKRTFPSRLEIKSIEIRQDSETTYTVHVHVQMHRSDGSTFNFTSTMVFVQKNGSWKIVEEHIHTQST 835 LDPEDEEAIRQMIRRFAEALNTRDREKLKDLYDDHFTMDLGNMDAEQIKKWLEEFLERFKTFRIQIDSMEFEKDGDEVTVHVNVTVTHGSTGRTFEVTRTFFFRKTPDGWKLTNDHVHTRERK 836 MSEEELREEVKEWLRRFYEAMNNNDLDKLRELLHPDWQHHDYSSGKTHHSREEFLEWVKQFLSQGWELEIKSIEIEVNGDEVTVHVTVQAKHPSGSTLTFHDTHRFEFRNGQMYLVETHTRVQQT 837 PTGEEEIEKIARRLYEALDKNDIDTFVSLFHPGATIHFSKGETLTDPDEIRKWFAEWLKSVKSTAHEIKSIEIRGDTVTVHVETHLNHGDKTHTISVTDHYHFVDKFLTNVQSHENPT 838 PSKDAQEAARQWVRRYFEAINKKDLDAFASFYHPDVRQHVNSEQRTFDREEIVERFKRYVETFSSFRIEIKHIEIEVRGNTVHVTVHVTVHHPQTGTTYDVTRHFTFELEGDSFKLVRDEVQTHQR 839 PSPEQEKAARELVQRFYEAINKGDWETAVRLLTDDWQFHDSSGQTLHSLEEFREWFEKWHRAGFHIDITTIEVRLIDKDEIQVHVHAQVHSRSGRTTFNTHDTHHLRLFDTDWRIVRTEVRMQPT 840 SDEEDERKIRDILRKYFEAFDKGDADKLKSLYDDDSTFHDANGQQFTDKDEFKEWYERWKSQFPTVHREIKSLEIRFDGDTVTVHVHVQVHVHHESSTVTIDVTATFHFERENGDWKIKEVRVHWDEKRQ 841 TGEETEEAIREFKRKFLEAFDNKDLDKLKEIIDPDSTFHFDSGFTATSLEEVVEFLERLLRTYKDTAHKIDSMEIQQDGDEVTVTVHVTVHVNNDTSTITIHITAHDRYRKKDGDYKLVETHFHFDQRQE 842 SGSEDEEKIREWKRRFIEAFNNGDLDKLAELVHDDATFHFSEGYTATNRDEVKEWFERVMRQFPTMRMEVDSQEIRVSGDEITVHTNVTVHVTNETSTTTIHVTTTDRYEKKDGDVKLTESRTHFDQRQS 843 PGEETMKREVKKWVERFYELFNRKDVDALASLYAPGAQFHDSSTGTQYDREEFRRWLEEFFRRFPNVQIDVQRIEIQIHSGNEATVTVHAQVHFKDSNYTVTVTQHFHFRYKDGTWKLTEDRMHFDQDRS 844 PGEETAKEEIKKILKRFYDLMDNGDMDAMASLYHPGARFHDDSKQQTYDLEQFREMVKRFLERFPDIQRHIESIEIQIDSGDEATATVHVTLTNKSNNQHVRVTQHFRFRYKDGTFKIVEDRIRTQNQNT 845 PGEETIKEVIKEWLRREFEALNNKDIDKWKSLVDPGVTFHDDSKKQTYDVDQVAEMIKQWLETFKDVRIQVDEIRIQIDSGDEAHVTVHVTFHYRSSSTQVHVTYHLTFRYKDGTWKLLSKRAHTDNQNS 846 PSEEEAKEQIEEWLRRFYEAFNQKDLEKLKSIVTPDATFHIYDGRTFTTLDEIAEYIKEMLSNESKIHIKSIEFHVNPDGSITVTVHVEVHTSNQNQTYRFTHHWHFKVDHDGQWKLVEVREHVDQHS 847 PSAEEAAKEIARRLYEAINRGDWEAVRSFYSDDATMHVSEGYTYKSWEQIVRWIQEWFKRDWQIQVHSIHVEVKHPDRFTVEVHAQATNSSTGSTVTITQTFHFQRKDGTWKIIHDHMHIHQQ 848 PSDEEIIREILERFYEALNKGDWETLSRLLDKDATVHISDGVTHTTLEQFREWVERFHSSGSKIHIHSIRIETKDKDSITVTVTVTVKNDQTGGTVTVTDHYHFRRENGSWKIVEVHSHFHQD 849 PDIEEQIREIKRRLIEAFNKGDLETLKKLFDKDATMEISDGVTFTSIEEILKWFEEMNRNNYKLEIKSIHIQVDSKDTVTVTVHVTLQQDDTGRTVDVTFHDHYVFENGELKILRSEIRFHQR 850 PDAQEAVKELVERFIEAFNKGDWETLKEIITDDWQNHDSSGITFTSAEEFREWVERILKDTRQITLKEIHIQVEHDDHVTVTVHIEQTNSKTGQTFTATEHHHIQRRNGSWKMTETHVQFHES 851 PSEEEIRELVRRFLEAFDKGDADALASLYHPDATLHVYNGRTFTTRDEIKEWIERWFKAFSDVHREIKSMEIRGDTVTVHVTVHAHHKDKTVTYNFTSHFHFKDGKLISEEVHVDNTES 852 PSIEEAVRDWIRRYFEAIDKKNLDELIEMFDEDWRYHLNGQRFSLEEFREMVERFLKSFPRVHHEIKEIEVHITKDHATVHVHVQVHLHQGDQTITIHVTETHHFRQENGSVKIQETHVDTKPS 853 ASEEEAREWVKRYIEAFFNTKDAETAASFYTDDAQVHHSNGQTFDNKDEFKEWIKEWAKRAKRVHFQINSIEVNGDTVTVHITVTFHHDDRTTTTDFTSHFHFKDGKLTSERVQTHTHNE 854 NPDEEEARELVKRWADALNRRDIDALKELIHPDATFHVDSETYDRDEYIEWFYKQFASHVTRVELKEIRVEKRGTTIHVEAHWTVHETHGDKDITVRVTTHFVFQKDHDGRWYLVELRIHFDHS 855 DPDKEQVREVKKRFIEALNNKDLDKVASLVHPDAQFHYDSETFNYEEFREWYFKMIASHAERIEIHEIRIHVSGDTVTVHAHYTVHFTHGDQKRTVHITSTDHYRRDHNGQFYIVRMETHADHS 856 DEKEARDAAREVVKRFAEALNHRDLEKLKSLYHEGATITFNGRTYRNPSREEIAQWFASLPIYRIQWQIDEIRVDGDEVTVHATVHVTHRNGNTVTFHSTFFLRRKDGEWKIVSEKVDRRQS 857 DEKEQEEQVREWIRRFAEAVNNKDLDTLAELLDKDWTVHYNGETYHTPSKEEFKEWLSSIEIKRLEVHIREIEIRGDHVTVHVELHMTTSSGKTVRFEETHHFTVKNGELRLTRTHITTYND 858 TSEEEAREIAKDIIRRLNEAINNNDMDALRELYAPDAQFTDASTGQTFDLEEFIKMIEEMLSSGTRIEFSIEEIRVSNNHVTVHITVHVHTGHTTQTVRRTIHFRVKDGEMKIKRDEINRNK 859 SSEEEAREAVKRLKTRFVDAINKGDLDAIRELFHPDVTFEFASEGQEYDLEEFLEWVEKMLSNGTRIEFEIKEIQLSNNHVTVHVTLHFHTKDRTQTVHQTDHYRLVNGEWKIVRVHIDRQP 860 MSEEEAKEAVKDWLRKYFEAINNNDLDALREMMAPDWRYHNADTKTTLDKEQFLKWVEDVFKNRTRFEFHVDEIRLSNNHVTVHVTVHLTTDDRDQTVHETHHLRYKDGTWKIVRTHVQTDQ 861 YSEEEAQRDVRELVERFYEAINKGDMDTMESLLTPDWRYTDDSTGQTYSRDEFKEMIEKMLSQGTKIEIHIREIHVGKDHVTVHVEVHFHTGDRTQTVHDTHHFRLVNGKFYLVETQTNRNT 862 SSEKETEEEVRRLINEFYDALNRGDIDALREILHDDVQFTNESYQRTFDKEEFLDWVRKMKSRNTRIEWEIKEIEISNNHATVTVEVHYHTNDQTYTFHDHYHFRLSNGEWKIVRVQSRSDQ 863 DDEEMKEQAKEIIRRFYEAINKGDLDKVREILDEGWRFHDASKQQTFNKEQFLEMVEEMVKNNIKIEIHFKEIQIDDKDEVTVHVEVHIGNVTTTDTHRLRRTKDGWKIVETRFQVHN 864 DKREDKEAIKEWVEREARAFNSGDMDAWYELFSPGAQFTNADTNQTYDIDQMKEILEKLWKAGFSLHFEIKEIEVKDDHEVTIHVEIHWRNQTVTYTDRFERDKDGWKITHRRIQTDN 865 TTEDEARKAVRELLNRMYEAMNQKDMDKIYSMYAPDVTFHHHNGQTYDLDQFKEWVEKFLRHFELHWEIKEIQVHNGTVTVHVHVTAHTNGRTLHITQTFHFEFRGDEVRVKEDHIHEQS 866 SSREEAEEIARQILNRFYDALNKGDMDKVKSLYHDDATFHHNKGETYDLEQFIKWVEEFIKHWELHWSIEEVRISNGEVTVHVHVQMHGDGETIDVTQTFFFRREGDEWKIVRDEIREQS 867 PSEEEAREIVKEFIKREAELFNKGDMDTWYSLFHDDFRLHHASGQTYNLDQVLEMIERLARNFKMEFSIKRIEVHNGEVTVHVEVHFHTNNKTVTVEFTDRLEMHGDTVQVTHRHVREQE 868 NSREDAEEAVRQLIEREVEAFNKGDMDTWEDLFHDDFRFHDSNGQTYDLEQLKKWVKELAENAELHFSITRIEISNNQVTVRVHMTFTTHNETRTITYHDHIRQEGDEWKIVRRQQQPDS 869 PEEEELREKVKEAIERMARAWQHQDLDKIKSFYDDDSTVWYNNIDAEEFERWVEEALRRFKDARVEFHIDEIRVTDPTHVTVHVTFHVTTPSGQTHTSTRTFHFRFEDGQIKLVEDHVYNQQT 870 DRREEIKEKVKEWLSRFYEALNRGDLEAIARMVDPDSTFHSDNKDWEQFVEWVERFLKRFPDVRFEWEIKHIQIETKDHVTVHVEVHVTHKDGSTQTSRETHTFEFKDGRLRLVRTKSDNQNT 871 PKEEELKEKVKEAIERMVRAFNHGDLDKILSFYSDDATVDTNGESLEQFKEWVERFLKTFKDGRMTFEIKHIQIEHETQVTIHVEFHFTTPSGQTQTSRRTFVFRFEDGQIKLARDKFYNQQS 872 PSEKELEEQVREWLRRFFEALNRKDVDEVASIFDEDWRVTHHTQTYNLEQFKEWVRQMLSQVESIEWQIDEIQFHGDTVTVHVTVHIHYTGKTVTVRETHFFTVENGSLKIKETRIQEDEVK 873 MSEKELKEAVRRWVERYARALNNKDLDALASLYDEDATMHINNQEYSYEEIIRWYKEMLSQARRFQVHIDRIEVNGDTVTVHVTMTIHYQDKTVHVHVTFFFKFENGELKLKRVEFHEHEQS 874 MSEKEMKEAVKEFINRYYDAFNKKDADAIASFYDDDATFHYNDTTYDKEEFKRWVTEFLKNVERVEWQIDEIEVNGNHVTVHVTATFHHPGKTVHVTQTFHFTFENGSMKLKEDRLHEQEQK 875 MSEEEAKRAARELIRREFEIFNSGDLEAWASYFHPDARMHIHDQTYSWEEMKEWFKEMQEKVERIEVEIKEIEVRGDTVTVHVEVTIHHPNKTVHAEVTIFLRIENGQFKIISKHIRTQDQS 876 PSAEEAARDLVRRWAEAFNNNDLDAVASLYHDDARVHHQNGQTFDKEEYKRWVEEMFRRAKQMEWEIKEIQVENGTTVTVHVTFHVRAYNITFHMTFHFRVENGQWYIIEQHISTEN 877 PSDEEQIRDFKRRYAEAINKGDLDALRELLHPDVQFHHSSGETYDLEQWKEWVRQFRSQAKELEVHIERIEIRNGTDVTVHVTVHAKATGTTFHATDFYRKKDGSWKIVEVRLHTQE 878 PSDEEAVREWKKRFAEAMNNNDLDALAELLHPDATLEHQNGQTSDREEIKEWAERLWRTATSIQVHIDEIQVDDGERITVHVTIHFKSRNVTVHATDHYEKHNGEYYLVRSQFHEQD 879 TSEEVERKIREWFRRFVEAFNKGDMDTLAELYAPDARMRAYNLDKDDIKRWFEELFKNDVKVEFEIKEIQQDGDTATVHVTFHFTDSRTGKTTTFHSTFFFEFQDGELKLKHEQVHFSDQ 880 PKDAEQKIREWLKRFYEAFNRGDADALLELLTSDSNVTFHEASGRTFTTLEEFREWVEEWLRQNWKTHIKSIEIRPDSKDEYTVHVHVEVRGTNQTIKVTETHHFRFENGSVKLVETRVRWDHG 881 PVSEEEVREAVKRFFDALNRGDWEELLKLVDESQWRFHNADGSTLTTKEEFRKWVERLFRENWQFEIKSIEVRITGEEVTVHVHVQVTQRDTGKTFRVTETHHFRRGKDGWKIIRTQVHVDPQ 882 PEEDEIRERVKEFIRRFYEAFNRGDVDALMSLIHPGATMHIDGQTMTSMEEIKEWFERFFKNGFKDAKLDIDEIRIQINSGDTVTVTVHVTITRQNGETYHVTNHDRFKYDKDGLKLVHHQAHTDN 883 PEEDEVREAVKEFLRKFYTAINNNDLDAIASVLTPGATMTLNGRTFTTKEEIKEWFRQFFERGFKDVKLQIDSIHIQINSGDTVTATVHVTVTQPDGSHIKVTHHWHFKYDKDGFRIVNVQEQSHN 884 PEEEEIKEAVKEIIKRFYEAIDNNDLDAIKRLYHDDATFHDSEPRTYHSKDEIKEWFKRWFESGWTDSRHEVHIREIRIDDKDQVTIHVTVHVTNADGSTTTVHQTFFIQRHNGEWKIIEDRVHTES 885 PEEDEIRTQVIEVIRRFYEALNHNDLEKIKRLMHPDATMHIFDGTTMTNLEEIIKWLEEWMRTFPDFRIEVHITEIEIRGQGTVTVHVTVHITNKDGSTQTFHHTWFLTQHNGQWYIVEVREHRDE 886 PQEEEMKEKVKDWVKKFAEAFNKGDADALASMYTDDSTMHISDSTTFNNREEIKRWFQKLMSQNIQMHVEIKHIQIHGRTHATVHVTFHLTHQNGQSVTIHSTFFFVFENGQLKLTNEQIHFQQN 887 MSEQEFEEIARDYVRRFAEAFNKGDFDKLKSLLDDDWTFHHSSGRTFTTKEEFIEWVRQFLSNGFQIHFEIKEAQLHGTNHVTVHVTFHFTSKDGQTHTFHETHFFRFEGDSVKIVETQLHTDH 888 ASEEEMKEAAKEIIRQIFRAFNEGDMDAIKSYYAPDATVHIWNGETLTTQEEIVKWFERLFSQNIEIEVHIRRIEINGTDTVTAHAEVHMHHPSGQTYTYHSTFHLELKDNRFFVKEEHLQRDH 889 MSEEEMAEAAKEIIKQIVDALNNGDMDAIASYYAPDAQLHIWNGQTFHTLEEIKRWFEELFKQNWEIEVHIREIRINGSTHVTVHVELTFHHPSGQTYRFESTIHFEVVGDRMYIKSEHIQSDH 890 PSEKEQEEAIREWLRRFYEAIDNGDWEAIRRLLSPDATMHVNGRTFTNLDEIVEYIRRWAENIQTAHEVHIREIQFHGNEVTVHVTVHATNRKTNSTITFHDTYHFRYRDNSWFITEVRSQETT 891 PVGREAAEKFVRRLYEAFDKGDRDTFDSLFDDDWTFHDSNGETITTKEEMKKWFDTMFKQLGDTAHEVHIKHVEEKDNGRVTVHVEVHQHIKKTGTTRTVTDTHHFQYKPTGVYVVETRSQWHN 892 SSEEEIKEAAKQIVRRLVEAFNHNDLDKLREIYHPDAQMHWNDQTFNSLDEIVEWIKQYLQRLRGSRIEFEIKEIRIHGTDEATITVQFHVHYSGENQTTTYHSHMRIRLEGNKWKILSEHVHEDST 893 ASEEDQQEIKEFIKREAELWNRGDLDTWKELFHPDATLHDSSGITFTDQEEIHKWLEEFLKDNFKDTKIEIKSIEIQADDKDQVTVHVHITVHINGQTFNVTQTDRFRKDGDRLKIVNRHVTIDNS 894 PDAEEDIKRLKEEFVRAFNTDLDTLKELFHPGVTFQSDNITFTDRDEIKKWFADLRSTMTVQVDRIEIQKNDDGTVTVTAHMTVHTPTQTFKVTAHDRYQLTDGRWRLVSSRFHRHDT 895 PSDEEDMRQLVRRLIEAFNKDVDALFEIFHDGWRFHWNTQTFTDREEFREWVKELQSTTHIEIKEIRVEKKDNGEVTVEVHVTFHTPTQTFRVTETHHVRKEDGRWRFIETRVQTHSS 896 PEEEEMKEKVKEWLERFYTALNRRDADAVASLYAPDSTFYVSRGETLTNPEEIKEWFKRFLDTFPDLKIHFTMEIHIHGRTTATVHVNMHVTHPSGQTYTFSQTFRFEFHNGRLKLTEDHLQTIQT 897 PQEKEAQEKAEEIIRRFAEAFNKGDLDAFRELYHPDATMHVWEGRTFNSIDEIIEFFERVLRTFKDLEMHVTIEAHQSGDTHYTVHANFTVHQPDGKQVHYHSTFRLRLKDGEIKILEEHISRHQT 898 PEEDEMKEAVKEILRRLFEALNRGDAEAIARLLDEDWTFHDAEPRTFTSRDEVKEWVKEMFKNDFKFHVESIEIQIYGRSTVTVHVHVTVTNKNGQTYHATETHHIRRKDGRFQIVETHNNWQPT 899 PYEEEMKEKIKEWVKREIEALNKGDMDTWKRLLDDDVQYHDSQPRTFNSADEMKEFFKQLHDNNFRLELKSLEVQIHGHSEVTVHVTVTVHHSSGQTYHNRYTDRFRFNNGELKLVERQAYWDST 900 DVSEEEAREAIKDWVRRYAEAFNRGDLDAFEELYHDDAQMHLSNGQTFNNKEEIKKWYEEFFRRFPGTQLEFQIDRIEVGHPGTYTVHVTFHFHHDSGKTTTVHATFHFEFRGDQMYLISVHYHTDNYP 901 TSEEEMKEMAKEVIDRLFEAFNKGDWEKVKSLLHPDWTYHHSNGQTFTTRDEFAEWIIKFWSQGWRIEWEIKRIQIDDGKEVTVTVQVHYHHQSDKTTDAQEHHRLRVDDDKEVKVVETRVHTDEKPK 902 MSEEEAKEIVKDLLRRMYEAINNGDMEELKRLFHPDWQYHQNKGRTFTTLDEFVEWAAQFWSNKWQLHWSIKEIRIHNGREIEVHVEVHITHESDRTITVRETHRFRVDDDHEVKIVETHTQIDEQPK 903 PGSEEEIKDLKRRFAEAFNNKDAETLASLYDEDVEFTEDKETYKLSRDEFKERWEEQMKKQFPDLQVQIDSIRIENKNGDEVTVHVHLTMHVSDGQYHFTQTDVYRYQDNTWKIVRTQSHTRGG 904 AGSKESIKEALKRYFEALDKKDADTLAELFDEDWTDTQDDETYHFSREEIREWFREFQSKHFPDSRHEIKEIRIQENDGERFTVTVHVDVHVKDGTYKVTEHHHVRVEGDKLKFKETRSHRQSS 905 PGSKESIKEWKKRYIEAFNKNDADKLADLVDEDATFTHSNETYKLSKEEYKERVERIFKTHFPTAQIEVKSIEIENKDGDQYTVTVHVTIHVKDGTIRATQHDVYRFEGDQLKLVRTQEQHHGS 906 DQHAEEAAREIIKRFYDAFNNGDMDTLKSLYHPDATFHDWNGQTFTSRDEIKEWLKQLFDNGWRIHFSIKEIQVHGTDEITVHVEVHFTNTNSGQTYTATQTFRFVLQDGKWYLVEDRLQRTG 907 DKDAEEAARELVERFYRAINNGDLDTMLSLLHPDWTYHDSSGRTFTSREEFAEWVEKLFRNDIKIEVHIKEIRVHGTDEATVHVEVHFHNTNSGQTRTTRDTHHIRLQNGQWKIVRTEVRWTD 908 DQSDEEAIREIIKRFYDAINNNDPDKLRSLYHDDATFHHANGSQLDDKEQIVQFFAELAKQGWQLEFSIKEIQFFGTDTVTVHVDVRMTQTNSGRTTTFHQTIVITKINGRFFIVRDQLQETR 909 DKSMEEKAREWKRRFVEAFNKGDMDKLKSLLHPDATMHNADGRTFTNPDEIVKWFKELHDNGWQIEFSIKEIQIHGRTHATVHVEVHFTNTNSGKTITVRVTDRYVFKDGQIYLTESRFHFTD 910 DQHDEEAVREVMDRLYEAINRRDLDKAASLFHDDWTLHHANGQTYTTIEEFKDWVKKMLDAGVEIRWKIDEIRVFGNTEVTVHVTVHMTHTNSGQTQTFHDTHHLRKINGQWYIIETRVQETG 911 TSEEEIREWKKRYATAFNNNDWDKLRELVHPDAQFHFDEGTTFDNAEEYIEWLRKFFTTKHQIRFQIHIEEIRIHGDTVTVHMTVHGTHKSGQNYTWRVTVHDVYKDGKLTSTELHTDQHD 912 MSEEEIKEILRRAFEALDKGDMDKIKSLYDKDAQFHFTDGITIDTLDEFIEWFVKFFLANSEAQYSHHVEEIRIDGDTVTVHFTVHVTHSSGQTITFRATSHFEFRNGKIQSEREQMHQED 913 PSEEEIKEFIKRWAEALDNGDRDKLKSLYDDDATLHVSEGYQMDNKEEIVKWLAEWYLKLFTDVKRQIDSIEIRGDTVTFHVTVHMTRPDGKTVTVHQTSHMHFRGGKLVEQHIQTDEDEG 914 PSEEEIKEWIRRYLEAIDNNDIDKLKELFTDDWEYHNYSGETVHNPDEFIKRWEEKFKKRVTRSKHDLDEVRIDGDTVTAHVTAHFTHKSGKDVTQHITEHHRFENGKLKETHETTHQDDG 915 SSEEEIREWLKRFYEAIDNNDMEKMLRLVDDDVTFHVYQGITFENAQEFIEWWAQSFRRRFTDSRHKIDEIRIHGQTVTVHVTVTLHHRSGRTFHRTVTEHHTFRNGKLVETHVHEDQKDN 916 ASEEQIKEFIKQYIELLNKKDIDAIASLYHPDAKLHDSDGSTYQNRDEIKEKWFKEFFESVDEMHIEIKSIHIDGDTATVHYQVHLTRGDRTHTYDVTDHFRFKDNKITEKESRMRDTTS 917 PGAEEAVRQVIRRYVEAFNNRDMDTLRDLYAPDATYHNAKRQQTYSYEEFLQMVREFLEKFDFHLTFRIDEIRVTGDEVTVHVTFHLRRNDHKTEHQVHSTFHLRRKDGTWKIKEEHAHFDDK 918 PDAEEAIRQLKRRFLEIYNTKDLDALRELYHDDVKFHNAKRNQTYDKEEYLQMVREFMEKFDFKIEVQIQEIEITGDEVRVTVEVHITREREGRTFTVQYHDRYRFENGTVKIISTQAHYDEQ 919 PDAEEQIKDFKRRLAEAFQNKDWEALASIFDDNVTFRFASTNKDYDKEEYIQMVREFLEKFDVEVEVHFQEIEITGDHIRVRVEVHFTIKKEKKTYTATYTDRYRVENGDVKLVSTEIREDSQ 920 PSDEEAIRQWIRREAEAFQRRDLETWASLFTDDSKVHDESTQTTFDKEELKDRVREFLEKFDFHVEVHIQEIRVTGDTITVTVEVHFTNNDEKKTHTVQYHDHFKKKDGQYYLKERHARWDSQ 921 PGEKTAKEAARELVERVAEAVDKGDRDTLRELYHPDATMHIWNGRTFKNLDEIIEWFTQFGSDLQRHFRVDEIEVNGDTVTVHVTFTVHHSDGKTIRFESTFFIERKDGSWKIVEERIHADSG 922 PGQETAERAVREWIRRFAEAINKNDMDALEELYHPDAQMHISDGRTFDSKDEIKEWFREMAENAQFHFSIDEIEVRGDTVTVHVTVQVHRRDGQTYTYHSTFFFRQEDGQFYLLEERIHNRSG 923 PGRETFERQVREWIRRFAEAFNKRDMDTLFSLFHPDWTFHDSSGRTFTSREEFKKWAEEFASHFQLHWEIKEIRVHGDEVTVRVEVHFTHRNGQDFTFEETHRFRLINGQLYLIETHLRQDGG 924 PGRKTMQEQVREWLDRFYTAMNNNDADALKSLYHDDATMHIANGRTFKSKDEIKEFLTRFASQFELHWSVEEIEVHGDTATVHVTVTAHHKSGQTYTIHQTFHFQFSDGRLYLTHDHIDNQSG 925 PSEEEIREDIKELLKREAEAFNKRDLDAWLSLFAPDATMHDQSGQTFTTLEELKEWVKQLLSQNWEVEVHIDEIEVRGDHVTVHVTAHFTNQDTKQTITVHFTIHFQLRGNEWKIVEKHISTRQT 926 VSEEEARERVKEWIRQWVEAFNKGDMDRLKELYHPDATMHLSNGQTFTTQDEIKEWYERLFRQNYRLEVHIKEIEIRGTTATVHVELHFTNESTGSTFTVHTTFHFQFEGDQVYLVEQRSHTDQT 927 PSEKEQEEQIREAYRRLAEAFNKGDMDAIKSLYHDDAQMHIYNGRTFNNKDEIKKWWAELFKQNWQLQIEIKQIDFNGDTVTVHVQFHFTNESTGTTMTVDATHRWVFEGKEVYIIEVHYHTRQN 928 PSDQEQIEELLRRFYERFAKQQDWKAFEEFFDPDAQYHNNNQTFHTLEEIVRFFKEMLERMQDVRFEVEEIEVRGDTATVHVTVHVTRNGKTITYRVTHHWVFKDGRVVEVREHTSEHD 929 SGEEDEEDIRQIIRRYAEALNRGDMDALESLYAPDATVHDSSGRTFTTKDELKRWYDEWLKKFPQRVEVHIKRIEFHGDTVTVHAEFHVTTKDGTQTTTATFFFVKDHNGQWYIKEVHWNSNG 930 AGEEDEKAVRDIVRRFYEALNKGDWEALASLYHPDAQMHLSNGQTFNSREEIVRWFREFLEKFPLQVHFEIKHIEFRGDHAHVTVEVHITTKDGTMTITQHITMTRDHDGSWKISEDHINFNG 931 SGEEQEEKVREVIRQYYRALNEGDMETLKELIHPDATFHFSNGETLTNLEEVIEWFKRVFERFPFRIHFEIKEIRFDGDTVQVHVEAHVTHKDGTQTFHDTYFFKFDSNGRVKIVEVHSNANG 932 ASEEEIRRAIEEMVRREAEAINKGDWEAWLSLFDDDATMHVSKGETFNSKDELRRWFEQLVKNNVKIEIHIIRIEIKDKDTATVTIEVHFTFTTYGRTITVNAHDHIVFEDGRFKITERHVTEQPN 933 DVSPEQYEKIKQFLRRFYEAVDKGDMDTFVRLFADDWTLHVDGRTFTTKEEVKEFFERFHRNADVERHIEDLHVEQKDGYVTVHVRVTVHYKESHQTHHYQETHHVRFDHNGQLYFVETHVHTEN 934 DASPEDEKEIREIIRRLYEALDRGDVDEFVSLFHPDAQFHSDGETIHTLEEYKEWVRRLHENADLRREIKRLEIEQKDGNATARVHVTVHYNESHQTHHYTHTWFFRRDHDGQWYIVEVRAQTHG 935 PSEEQIKDILKKFYEAIDNGDWKTLRELVHPDAQYHHADGTTFNNVEEMAREFAEKWFKNNDTAHELEEIRIDGDTVTVHYTLHVNRGDTTYTFRGTDHFRFRGDKITEIRSHIQQTD 936 ASEEEIRDLIRRFVEALNNKDRDKLKSLYHPDAEMHIYQGKTYTNLEEIITFFFEEFFSNNDAQIEIKEIRINGDTVTVHVTVHENHGDRTHTFDVTSHFHFRGKKLTEEHIHVQQTD 937 ADEEFQEHVKEFKKQLIEALNKKDVDKFVSLFSDDATVHYNNGETLTTKDEIREWVERWIKSFKDFKIEVKSIEIRGNTVTVHMTVHMTHDSSTHTVDVTSHDRYENGRLKEMEQRHNQR 938 TSEEEIREIKKRLLEALDNKDLDTFASLFHPGATVHFWDGYTAHDQEEIKEWFAQFFKKFDDDYRHEIKSMEVRGDTVTVHVEQHAHKRPQTFTITTHDRYENGKLKESRIHRNPQ 939 MSEEQIRDWKRRFFEAFDKRDLDALAELWHPGATVHFSDGTTVTDKEEFKEWFARFFSRFPHDFRHEIKSMEIRGETVTVHVEMHWTSHPKTQTITVHDHYKDGKITESRFHVNDQ 940 ASEEEIKEWVRRFVEAFDNGDLDTLVSLFDDDWTFHHSNGQTFTTKEEFKEWVKQFFEKFPQDLRHQIDSIEIRGDTVHVHVTQKHRDDKTTRKITETHHFKDGKLKETHQQHDDT 941 TSEEEIRELARRYYEAFDNKDMDALKEILDDDATFTNNSTQTTVDAEEYIEWMERWLRRFPRVRHEIKEIRIDGDTVTIHVQVHFTTRSSQTYTVDVTHHWHFRNGKVVRLQVQTHQRE 942 PISEEEIKEWLRQFFEAFNRGDLDTAVSLFHPDATVHVSDGITFTNLEELREYLKRLMDNNAQIEVKSIHISDGTVTVHWTMHMTHGDKTVTIRGTTHFHFRNGKLTEMHIHVDHNR 943 PSEEEIRDIKRKFAEAFNKGDLDTLKELFHPDATVHFYIHNTTAHSLDAFKEWVRRFLRIPFTVHIESVEINGSTATWHMTVTFHHNGKQHHIRYTVHDHYTDGRIRETHFHVDTG 944 PSEEEIRELKRRLVEAFNKNDVDKLAEIFHPDATIHFYQEPSTVHSKEAFREWVKKMARTPFRVEVKSVEFHGDTVTWHLQFTFTQDGKEVHIRVTVHDHYSDGQITETHFHFDEG 945 SDQEEIRQWVRRFIEALNNKDMDTIASLYDDDATLHVYNGQTWTTREEIKDWFRQLIEKMKDVRFEIDSIEVRGDTATVHVTVHVHHETSTHTFHITSQFHFKDGKLTEEHIHENDT 946 ASEEQIEELIRRFYRAMDEGDVEALAQLLHDDATIHFYNGITITSKEEFKEWVKRWQSQFQRIHRQIHSMEFHGDEVTVRVTLTVHRGNQTVHYRYQHHWRVQGNKIVEVEVRSDSQPT 947 AGTEKIKDLLKKMYEAFDNGDWEAVASYFHDDSEVHFQGGITIHSREEFEEFIRQVLSNIKSLQREIREIRIDPSTQRVTVHVELHWNLGRRTVTVTETHVVRGDQITHTHVQEDQQ 948 DSEFQQKVKDIKQKFIEALNNKDADKVASLFHPGAEIHVYQGITFTDVEEFRKWVEEFLRHWKDVKFQIERIEIDGNHVTVHVTVTFNHDHPGQLHFHFTFHDVYRNGRLVRTQINSQPKN 949 DREEQEEEVRKWKKRFVEAFNNRNWEEIASLIHPGSTFYHTGGQPSDKEQFVRWVKEMAERIDHVEVHIDEIQFHGDTITVHVTSHFHQGDTTFTVHQTDHYQKRGDTFRLIETHTHRDS 950 DKEEDKEAIKQWFRRYFEAMNNKDIEKIASLFSDGWTYYSPGGQPYDKEQFKEMVKKLLDQIKQIHWEIKEIRVDGNTITVHVESHIRINDKDITFHETHHFEKRDTQFYLIETHVQSKD 951 PSLEEQIREWLKRYYEAFNRGNLDELAELVDDDWQYHDEKTQRTFHTREEFREFVERVMRTFPTMQIEIKRIEINGNTVTVHVTVHVTHPNSHTTVQVTEHHRFENGKIKETHTREHQQD 952 PSWEEQIREWLKQFYEAIQNKDLDALARLIHDDARIHFESEQITLTTKEEIKEWFERFMKRFKNTHVEIKHIEIRGNTVTVHYHVTVHHDDRTVHFTVTDHFHFKDGKITEIRSRIEERR 953 DEEEETEEQARQVDTRRFEALNRGDRDTVRSLFHPDATYVDSNGQSYDYEEFIEWVKRHRSDQQHLEFTIKEVRINSENHVTVHGEVTDQRTGVSATYTAHYRKNGDEMKIIRLEVNNNN 954 DEEEKMKEIVRQIIRRELEAMNNNDLDAWLSLFHPDATYTQQNGQHYDREELKEMFERHRRYHSNIHIEIKEVHIDSEKHVTIHVQVTFNARGTTFTYTFFVRVGGDQAYIVRKHESNNN 955 DKDFEEAAKEVIKRMYEAMNKKDLDKVASLYHPDAQFHYNNQTFDYEEFREWVERMLSTVSNIRFSIKEIRVHGDEVHVTVEVHFDSDKRTFEQHITIVRTGSQWYIVEDRMQTIN 956 LNPEAEKAVRDTIRRYFEAFNKGNMDEIKSLFDEDWTVQDERTGTEYDLEEHLKRLKELLSNGTQMHVEIKEIRQSDSGEVTIHVTVHVTQDGRTFTVRETHHLRFEGETLKIVRTHLQFRST 957 PDPNDQEQIKDWLRRYYDALNKGDMDAIKSLFAPDWRDTDASTGQTYDLEEHLERMRQMTSRNVKVEVEIKEIQIDKDGRATVHVTVRMTENGQTFTFHETHHFQKHGDGFQLVETHVHSHGS 958 PNPEDIEAVIQLIKRMYDAFNAGDMDKLKSLFDDDWRWTDARTGQTFDLDEFLDMVRKMQSQDIKIEVHFKEVRQEKDGTIHVHVEVHVTRNGRTITYDDTHTFQKHGDSWKVVHTQTHERTN 959 NDPNDEEAVRQILRRLIEAMNKGDWETLASMFDEDWRFHNSKTGRTFDLEEFVRMVRTRHSRGVRIEASVERIEFDHNGRVTVHVTVHMTENGRTRTYHETHHIQKHGDSWKIVETRQTERGN 960 SDPEDLEQVKETDKRRVEAFNRGDMDTIKSLFHPDAQFTDDSTGQTYDLDEYIDRLRKLFSQGVQVEVHIHRVEQDKDGEVTITATVHWHRNGQTFTVRYTIRYRKTGDDWRIVEVRYQRHSS 961 TDPSAEEAIRQIIKRLAEAFNKGDLDKIKSYYHDDAQFHFSSTGQTYDLEEFLDMVREMTSRGVQVEVHVDEIRQQDQGEVTVHVTVHFTENGQPFTVQRTLHFRLDGDSWKIVSDHITHHST 962 PDPNDQEAVKQLIERFYEAINKGDLETLESLLTPDWRYTDASTGQTYDKDEFKDMVRKRFEQNIQIEIHFKRIEVEKDGTVQVHVEVHFTRNGQTFTTHDTHRFQKYGEGWYLVETRSHMRGG 963 PNPEDQEAIKQIVRRYFEAFNNNDIDAIYSLYAPDSQIHFESTGQQFDVDELREMIEKRLRRGTQTEFEVKEIQVYKDGTVTVHVQVHMTTDGQTFTVDQTITITKDGDDWKIVEHRVREHGS 964 TDPSVQEAVKELIRRFAEAFNNKDLEALKELYHDDARYRDSTGQDYNKEQIEEILERMMSRIQQMHFSIDEIQQHNDTEVTAHVTFHVTINGTTYTIHSTFFFVRTKDGWKIISEEVHERST 965 TDPSFQEAIKEFYKEEAEAINKGDVDRWMSLFHPDATYYSSNGQSYDQEELRRMFERMLSTVQRLEFSIDEIQQDDSTHVTVHVTFHFTVNGKTYTVHATDRVQFEKDGVKILERREHTHST 966 PDPEAQKAIKEAVRREAELLNKKDLDAWMSLFADDATFTDSTGQEYDKEEIREWVKQMLSRAQHFEFHINSIEQKDDTTYTVHVTVHVTIDGKTYTIHMTDFWVVTKDGWKIKRREVRTHST 967 TDPSDEEAVRQVVQRLVEAFNNGDFDALKELFHPDATYVDSNGQEYNQEQIEEWIRRAMSRIQQIEFSIKEIQQDDHNRVTVHVDFHITVDGEDYTFHMTDFYVKTKDGWKLVRREVHERST 968 TSEKEFEEMAREWLRRFYEAINKGDLDTLKSLFHPDWTYHNASTGQTYTVEQFLEMVKKMVENNVQIHWEIKRIEISGDEVTAHVEVHITTSSGRTFTVHDTHHFRVEGDRLKIVETRSQYQEN 969 PSEEEIRQLLRKYMEAIDSQNGHDAVRELYADDATFTYNGRTFKTKEEIAQWYREWLSQHPDMRREIKHLEIRGDTVHVEFTVHFNHNGQTYTVDFRATFRFDHNGKIKEVRIHTHDKR 970 PSEEEIRRLVKKLLEALDSGNGEDAIREIYTDDSTMHVNGQQFNSKEEIVEWFKRFLSQFPDIHRQVDSLEIRGDTVHVHVTMHVTHNGKKVTIHITSTFHFNKDGKLVEERIHIDNRD 971 PSEEEIREMLKRFYEAVDSGNGEDAVQKLFHDDATFESNGQQFNSLEEIKEFIQKWASQFPDLHRQIDSIEFDGDTVTVHVTVHFNHNGQTHTVTFHHHWRFDKNGRIVSLHEQEHDNS 972 SDEDQEEIKRVIEALARALDEGDADAFASFYSDDGRIHFADGSTLTTKEEIKEWVERFKSTNPDAQRHIHSIHFSDGEVTAHVTLHVTHGDKTVTIDVTRHFRFKDGRLKRDEIRWDEKPT 973 PDQEEIIRTYIRAYVEALNSGNVEEMIDKLYHDDATVHVNTQTFTNKEEVKEWYKRWLSNFKDVKVEPQTNVEVRGNTVTLHFTVHATHGDETKTFHFTYHVRFRGKKITEEHVHENRG 974 PKEEEIRRTKRKFFIEAFNRGDLERMVRELFHDDATFHYNRRTFKNPEEIVEWFRRFWESFPDATVEDNTHVHFDGDTVTFHFTVHLRHGDKDQTFHFTFHDRYKDNYLVEVRVQTDQG 975 PKAEELIEIKIKYFAEALNRGRAEDMVRELFHDDAQIHVNNQTFTNREEIIEWFKQWLRRFPDTHVDNDAEFHVDGDTMEAHFTVHVNIGDQTYTFRITVHDEYRDNYLYRTQMHFDTG 976 PKQEEIIRTFLDFFVRAFNTGNVDKMVDDLYDKDAQLHVNNQTFTTLEEIKKWFREFLKTFKDVQVHNESNVEVRGNTVTVHFTFHATHGDTTYTFTMTSHVTFRGDRIVEEHVHFDSG 977 PDQEEIIRILLRKLAEAYNTGNIERMLRELYDKDAQYHYNNQTFHTLEEIIKWFKEYFKRFPDVHVELESNVRVEGDTVEAHFTVHVRQGDKTITYRYTRHFRFEGKKITEDRSHEDKG 978 PDQEEIVKILLRKFVEALNSGNWEEYVDELYDKDVEVHFNNQTYTDKDEIKKWFTEWFSNFPDVKVEIHSNVEVRGNTVTIHFTIHVTLGDKTYTYRVTRHIEFRGKKIYRDQAHFDSG 979 PDQEEIVRTYLKLFVEAFNSGNWEEFFERLYHDDAQMHVNNRTFNDKEEIKKWFREWFERFPDTRLENKSNVEVRGNTVTFHFTFHVTHGDQDYTYHYTFHVTFRGKKITREQVHEYRG 980 PKQEEIVEEFLKKFAEAFNKGEIERFIREIYHDDAQFHYNRRTFNNPEEMLEWFRQWFERFPDVHVTLNSNVEVRGDTVTIHFEIHVNHGDRTYTFRYTSHITFKGDKITEEHMHTDSG 981 PDPKQIKKEMAELLNSGDWKKALEAFERYFTPDAEITFNGETITTLDELKEWIKKWFEDVKDAQVHVDENIEINGDHVTAHVHIHFSGENQTVTATQHDVYKDGKIKRSQDHSQPNN 982 PSEEELKERVKEWIHREVEALNKGDWEAWKRMFHPGAQFHDNTRQQTFDLDEVTDMIRKQQRHSDVHVEIKEIRIEIKSKDTVTVTVHVQVHEHHGDQTYTYSVTTHFHFEFRGDELYITEKQTQRDRT 983 PSEEEQERAARDWLRRWFEAMDKGDLDTLSELYAPGAQYTDATTQQTYDKEEFLEMVRQLFENSGVQHHVDSVEIEIKDETTVTVTVHVTVHWHHGDETRTVTITYHFHFRFEGDELKLTHQQTRRHQN 984 MSEKELEEIARDWVRRFFEAFDKGDMDKLRELYTDDAQYTDARTQRTYDKEQFLKMVEKYLRHTGTAHHLESIEVRIDDETHVTVHVHVTVHHHHGDETKTVHVTSTFHFRFEGDTIKLVEEHVQFNQS 985 MSEKEREEAIREWLRQFYEALNKKDLDAIRELFTPGAQFTFNGQTFNDAEEFEEWVKKWLSADFQIQIESIEIRINDDGSATVEVHVTVTNRKTGETIRFTDTYFFRFEGRQMKLVRVESRSDQLKD 986 ASEQEIKEAVRELIRQFYEALNKKDRDKVRELVAPGATMHVDGQQFDDLEEIEEWATELMRQDWELRVKSIEIRINDDGSVTATVHFTAHNRKTGTTVDVTDHYFFERRGDEFKLVRVESHRNQKKD 987 MSEEELKEAVRQFAQRMYEAFNKRDRDKLDELLTPGWRFESDGQQFDDKEEFKEWVDRMLSNKFHLHVKDMEVRVHSDGTVTVHVTVELRQDDTKRTWTTHDTHHFRFEGDQVKLVETRVSFQPNKD 988 ASEKEAEEAIREILRQYFEAVDKGDVDAVASYYHDDARYTQAGRNETYNKEQIKEWYERFLSHFDTQRHMKEIRIQFDSKDHITVTVHVEAHHNGSGQTVTFTYHFHMQRDEGEFKITRVQSHNTD 989 SSEEEAEEAVRRVVRRFFEAVDKGDMDTLRELLHDDWTYHQNDHNETYDKEEFLQMVEQWARRVRVHRQFHGLEIRQSDKDEYTVHVHVTVHHDGTNRTQNVTETHFFRRDRDEWKIIETRVTTTD 990 MSEKEIREAIKEWVRQWAEAFNNKDIDTIASLYHPDATVTHKGTNQTYDYEEYVRMVEEFLRKFDTRFEIKSIHIELSSEETVTVTVHVTATNTGEGQTFHFTYHFFFRRFDGQWYLLHQREDNTN 991 TSEEEVEEAVREFLKRWVEAFDKGDMDTLRELYHPDATVHFNDHGETYTYEEYLEWVARFLSNFNLERHIHEIHIENESSTSATVTIHMTVHRDGSGQTFHFTYHFRLRQDSGEWKIVEQHVTTTN 992 TSDKEIEEAVREWVKREIEILNNKDLDAWASLFAPDATYTQAGTNQDYDYDQMREMVRQYLEKFNAKIELKSLEVRSDSKDSATVTVHIDITEDKSNRTITFTYHFHFRQDDGEWKLKRKQTHNTN 993 TDKSVEEDIREILKRFYEIFDSGDADKVASLYDEDATFHDSKTGTTYDREEFKERVERQASNDSRHQIDDVRVEQNGDDVRVTVHVTVTFNKDNQQYHSEFTQHFRLRLENGQWKIKEDRLTTKDR 994 TDPNDEKAIRELKKRAIEAMNTGDWKALKEIFHDDATFHDARTGKTYNLEEYIRMFKELQKFDMRIEVKSQEIEQRGDQIHVTTHMEVHVNHGDQTKTTRVTTHDVYVKENGDWKIAETHYHTDDS 995 ASEEDQRAIKEVKKQLAEAFDRGDWERLRELLHDDVTFHNSKTGKTYNREEFREMVERFASIPAQRQIDELHIEQRGDDYHVTAHVTVHEHKDNQTKTYRVTFHDVYRKKDGTWKVVRSQEDIDDE 996 ADPSDQEAIKKILERFYRAMDEGDREALDRLLHDDVQFHDSNTGKTYSKEEFLEMVTEQAKFPLQRQIHGMEITQDGTTYTVHVTVTVHVNHNNQPRTNTFHDTYFFQKKDGQWKIVEVRSTSDHS 997 MSEKEAQEAAKEVIRQWLEAFNKGDMEALKELYDDGAQVHFASTQQTYDKEEFLEWVKKMFKQDTKMELKSIRIEIDDHNSVTVHATFQLHTNQGNTTITFNIHSTFHLTLENGKWKITEQHITMHQEQT 998 MSEEEMKEAVKEFKRQFVEAFNKGDFDRMRELIHPGAQFHFASTGQTYDVDEFLDWFRKFFENNTRVQIDQIDIEVKTPTDVTATVHITFHVTHGNTHTTFHVTFHDHYRFKDGQIYLIETHIRTHQRDN 999 ASEEELKEKVKEIVKRFIEAMNKGDMDAVKSLYHPGARVTFSNTNQTYDLEEFLEWVERLTKQGTKIDLESIHIEIKDETTVTVTVHVTFHTTHNTKHQTFHVTSHMHFQLRDGQLYIIEEHVTTETRDS 1000 DKREEFKEQIKQLVQRLVESFNTGDRDAFREIYHPGAKFHFSNGRTYDKEEFEEMVEEMHRRDIKLELESLEIHVSGDEATVRVSVTAHNSSDNKTTRFDSTFRFRVGDGEMKLTEEHIHRND 1001 PEEEEIKEKIKQFKRQLVEAFNKKDLEAIAELIHDGAQFHFYQTQRTYDKEEYKEWVERMLRNNTQIHIESIHIEIKDNGEVHVTVHFTAHRTQNGKNYTIHGTAHDRYRVKDGKLRLIESRIQLHEQPQ 1002 PEEEEMIRQVREFLRRLMEALDKGDADTIRSLMTDDWTFHDSSQQRTFSKDEFVEMVKKFASNDVKREVHSIRFEIKKDGELTVEVHVTVHATHNGKDYTQHITETHHFRFKDGELRLVRTQVTTHQQPN 1003 PEEEKMEQAIRELVRRLIEAFNKKDIDKIDSLYHPGAQFHFYSTQRTYDKEEFREWVERLLSFDTQFQVDEIRVQLYDDGTATVQVHVTVHTTHNGKRYQTHMTSHFFMRFKDGQLYILSERIQMHTQPT 1004 PSISEEQVREWVKKFFEALNNNDPDKLEELFHPGSTVTFPDTGTTLDQEEFKEWVERMLRSAKDSHFQIESLEVRIHGDTATVHVTWTVHFNHGDRTETYTGHTTFHFKRHGDEVRLVNMQVQTDQT 1005 DEETEIIEDAEEILRRYYDAFNKGDLDTMYELVHPDAQFHDSTGQTYDLDEWFEWLREILEKTDMKIEIKSIEFRIDEDSRTIHVTVHVTVHLTHNGETKTYTVTHHWVLQRRGDSVYVVSVEERRNSH 1006 PDTEEAKEDIRQIIRRFFEALDKGDMDTLRELVDEDWTWHDNDGQSYSAEEFLEMVERFNRNFNSNHHLESLEIRQKPDQREFTVHVHVKVRFTHNGKNVDVDITETHHLRKKDDEFKIVETHTHPRQT 1007 NDEEEAKEAAKQIIERLVEAWNKKDLETLDSLFAPDWKWTNANGQTYDREEWKEWVERWMRHFDTKIEIKSIEFRVQPDSRQITVHVTVQVTHTHNGQQRDVTFDETHHFRKFGDSWKVVETRTQPRQT 1008 PKEEEAKEIVKELLQRFYEAMDKGDMDKLRSLFHPDATFYDSTGQSYDLEEWLEMVRQSTENSDSRHHIKSIEIRQDSDERTFHVTVHVEVHFTHNGETQTYTFEHHWVFVKEGDSVKVIELREHRYNH 1009 PDEEEAREAVKQTIRRLIEAWNKKDWEALRSLFDEDWKWHNADGSTYDLDEFIDWFRKWQRHFDTHVELKEIHIQIQPDKRHITVTVHLTMHEHHNGQRQTYTYTEHHHLRRQGDDFRIVETHTRPINH 1010 PDEEEDREDIKEWLKRFYEAIDRGDADALREMIHPDATFHHASGQTYNLEQFLEMVERTRRHSNSNHHLESIEIRLDDDKRQITVTVHVTVHFHQDGRQYTFRFTEHHRFRKEGDSWKLVETHINSNQT 1011 ASEEEARKAIEEIIRRLIEAFNKGDLETFMSLFDEDWRYHNDSTKRTFDYEEVKEMVKRLLEAGFKLQVDSIEIRQDGNDEFTVTVHVTVTQTHPGTKTVHITEHHRFRYGESSWKIVETRVRRSET 1012 PSEEEIKEQIRQFDRRRLESFNSGDIDKAVRLVHPDATFRFDSTQKDYDLEEFKKMMEELFRSNTHLQLHGLEVQVHGRTHATATGHITVHFRHPGTRTTHFTYTVTYRYGDNDWKLTHMRVHREHR 1013 ASEEEIEEAVRQIVRRWVEAFNRGDADEMASLYTPDAEFTHQSHQQTFDKEEFREWVTRMFRAGVEVELKSVEIQIFGDDTVTVHVHVQLHFRHPGTKTVHVTFTFHLRYGESSFKIVRQEIRRHND 1014 PSTEEAVRELLRQFYESFNNKDWKKIEELFAPDARMHNQSTGRTWDYEEIVEWFKRFASNGHDVQIQIDSIEIQQGPEGHATVHVNVTFHFHHNDRTRTVQVHETHHFRLTKDGWKITRTQIHRVQK 1015 PSDEEAARELVRKFFEAWNNRDREKLEKLVHPDATFHFPSHQQTYDWEEFIEWLERSAGNNVDAHIEIKDLHVQSTDEGEFTVEVHWTVTFHHGDETKHVDATTQFHFRLTKDGWKIVEVHFTHDNQ 1016 PSTEEAIREWIKREIEAFNKQDLDTWISLFHPDATMHVSDTNETFDYEEIKEWFSRFAGNNVDVKIQVDSIEVRETDEGHVQVHVHVTIHFHNGDETRTLRFTFTDHFRLTKDGWKIVERHITTDGS 1017 NSEEESKEIAKELKERFIKAFNEGDADAAVSIVFTPDSQFHDKDGRTYNLEQFIEYLRELLKNDVKIHLHSMEIRVHGNGHVRVTVHVTLTSTHNGSKVHVTVTAHDFYQQKDGTMKIKRSQFHEDSN 1018 SSEEEFKEAVKETIQRMIEAFNTGDMDKIRELYHPDFRFHHSSGQTFDKEEFLDMIRKLLSQNVKIELKGIEFKEITDTEVHVEAHVTVTNNSTGTTYHFTSHFRIRQDGDEFKITEEHLRTIG 1019 TSEEEFRKAVEELLKQFYEALNKGDLDKLRELLHPDARFTHDQGTTYDREEFLEMVEELVKAGVRIRITGIEFKEITSEEVTVQVHVDVTNSSTGTTVHVTEHHHIRQEGDEFKIVSTEFRRDS 1020 YSEEEVKEAVKEWKKRYVDALNKGDMKEISELIHPDARFTHERGETYDRDEWLKMIEELLSQNYHMQIRSIEFKEITEREVTVTVHVEVTNASTGTTYKFTYHDRYRFEGDELKLVELREHTRD 1021 MSEEEFKEAVKEWIRRYVEAWNTKDLDKLHELYDDDATFHHQDGETYNRDEWLDRVRELLKQDYQIQLLSIEFKEITDTEVHVQVHFQVHNRKTGTTRHMQRHFRFRFEGDELKLQEDHERRDS 1022 PSEEEAKEAARQIIERLYDAFNKGDLDKLRELMHDDWRYYDSTGQTYSAEEFLDMVKKAKEADVHVQIDSIQVQEVSSHTITVEVHATVHNGSTGTTVHTTDQHHFQLFGDEWKIVETRVHTDG 1023 MSEEELKEAIEEWKRQFIEAINKGDLDKLRELVHPDARFHHASGNTYDREEFLDRVEKLNKNNFQFDMKSVEFKELTSHEVRVQVHVEVHNRNTGTTFHFTQEDRYRIEGDEVKLIETRETSHG 1024 PSEQEFEEAIREFKKQWAEAFNNKDMDKLSELIHPDARFDHASGQTYDKEEYLKMIEEMLSNDWNIEVEHLEIKEITERHVTVEVHMTFTNNRTGTQYKVTQTDFYRIKDHEIKLVKSQEHHDG 1025 TSEEQMEELARRYYTAFNNKDWKAFADLLDPDATVTIFHDGQQHDYDWEQMVEMVKRIAETFKRFRIQIDSIEFRGDTVTVHVTFHWTNDSEDTTVHATHHWVFKDGRLTELHAHYNRQR 1026 ADEEELRELVKRYAEAMDRGDWEAAARLMHDDWTFHLNNGQTFTTQEEFIRFVQQFFSNADSRHDIKEIRVHGDTVTVHVTVHVNHKTGKTYTIHATEHHEVRNGKIARTQVHEDTQPT 1027 DSEEQIKELIKEFYRAINERDLDALSELLHDDAQLHLSNGQTFDNKEQIIEWFKRMLDNSDMRVQIDEIRIDGNTATVHVTMHFTHDSGKTVTVHVTEHHRFKDGKIVRTQIHFDSQPN 1028 PDEEKLRQWKKKFIEAFERGDLEKLEKMIHPGARFHFAEQQITFTDREEFRQWVEEFLERFKNTHIEIKSLEVRGDTVTAHVTVHTTHGDKTQTYDYTTHDRYEGDKLVESRFTFDTKN 1029 PQEEKLEEWKRRFIELVNRGDLDALKEMIHPGATLHDENTQVTYHTLEEIKKHIEDWLSRFSDSRFQIDSIEIRGDTVTVHVTFHFRHGDKTTTIHMTQHDRYKDDKLTESHTHYDTKD 1030 PDEEKIKEWVKRFFEAFERGDLDALVELLHPGVQITFSQYQQTMHDLEEFKQWVEEQLKTLEDTKFQIDSMEVRGETVHIHWTVHTTHGDETRTVHVTTTFHFRGDRITEIRFHFDERR 1031 MSEEEIKDWVRQFMETLDEAFEKGDWKAVKEMFDPGVTIHDDSRKETFTDLEEFARKFFTKYFKNIKDMRREVKEIEIRGDTVHVHWTVHVTHNGKKITIHGTTTFHFKDGKLVEVHFHFHPT 1032 DSEEEIKEAVRRFYAAMNEAFSKGDADKFKSLFHPGATFHDDSTGTTFTDLDELAERWFREFFETFKDMEIQIDEIRVDGQTVTVHVTVHVTHNGQKITYHVTDHYTFKDGKLVSMRSQWHQT 1033 PSEEEIKEWLEKFYEALAKGDLDKMRELLHPDATMHIAQSQVTFTDLEEIMEYLKQWIEKAKDTQMDSMEIHFDGDTVTVHVTITVHTPEKTYTFHVTHHWRFKDGKVTEVRETTETRET 1034 PSEEEIKKFKKRLIEAFANGDLDALEELFTPDVTIHFSSEQVTFTTKDEFKEWVRQFLSQFKDIQLDNMTIHIDGDTVTVHVTITVHTDTQTYTFHWTTHDRYKDGKIVETQFHVETRET 1035 PDVSEEEIREFLRRFYEALDRGDVDAVVEILDDDWQFHDSSGVTLHTKEEVKEWVERWVKSLPDVRREIHDLHVDGTTVTVHLTVHVNHKDGTHTVHTTDTHHFRNGKLTETHVHWDSRD 1036 SDVSEEEVKEWFRREFEAFNHKDVDTWVDLFHDDAQIHFSDGETLNSREEIKQWFEKLIRELKDARIQVEDLHVDGDTVTVHYTLHVTHDNGQITVRVTTTVRFEDGKVKEKHVHYDRKE 1037 ASEEEIKELLKRFYEAIDKGDMDALDELIHPDWTYTDASKQRTFSKEEWKKMVEELLKRSKDTRHQIHEIEIRGQTVTVHVTVHHTHGDETRTIHFTDHHTFKDGKLAHTRTHWHPKD 1038 MSEEEIKEWLKRFYTAFDNGDADTVLSLLHPDWTYHNSNGITITSLEEFREWMKQWKEKAKRVHRQIDRIEIHGDTVTVHSTVHVHHDDRTVTIHVTDHHTFKNGKLTETRSHVDNGN 1039 MSEEEIKEWFERYFEALDKNDLDKVASLYADDATVHFQDGITLTNKEEIKRWYKEWMSKVKRTAHEIHEIRVHGDTVTVHVTTHVHHDDRTITVRVTVHVTFKNGKVKEVRFHSDKGS 1040 MSEEEIKEWLKRFYEAIDKGDLDALRELIHPDATFHFQDGSTITNADEFKKWVEEWFKQVKRVHREIHEIRIDGDTVTVTYTMHVHHDDRTQTRQATDTFHFKNGKLTEFRSHWNNQS 1041 PSEEEIREIKKQFFEAINNGDMDKVKDLFHPDAQFHIFEGITFDSREEFVTWFTKKIREHFNTKMHLREVHIDGDTATFHYEVTHHHDDRTRTVRVTTHDRYDKRTGKIVESEFRMDTGG 1042 DDREEIEKLDRQRLEALDRHDMDAFREYIHPDAEMHIHDSSGNTITFKTIDEIVEWFARVLSRYKDSRHEIKSVEFRNGTVTVHVTVTFNHDTGQVHIDVTYTMTYKDGKVTEVHFHYDNK 1043 PEEEEIKEWKRRFFEALDNHDLDALRELFHPDAQVHFNDSSGQTYTYDTIDEIVEFFARVLSTLKDSRHEIKRIEINNGTATVHVEVHVNHDNGTKTRRVTSHDEYENGRLKRTQFDFDDQ 1044 DWREELEELDRRRLEAIDRGDMDTLKELIHPDAEMHIEDQSGNQITFKTIEEIVDWFKKLWESLKRVHRQIDRIEFHNGTITVHVTVHVHHENGTRTITVTYTMTYKDGKVTEVHFHYRDS 1045 MSEEEVREFKKRLAEALDRGDVDAAASLFHPDARFHHNSGETLNDLEEIKRWFREWFSKFPNVHRQIDSMEVNGNTVTVHVTVTVHHPDRTLHYRFTVHDHYKDGKLVETHVHENPT 1046 PSEEEIKDWVQRFFEIINKTRDWDALKKLIHDDITMHIHNGITFTTRDEIADWWRKWFENNPEIHVEVHVHVDGDTVTVHWHVTVHRGDQQYHYTATTHIRFENGKIAEIRIHIRQWS 1047 PSEEEIKTWKKRYYEEFFKTRDAQAAAEYIHDDVTIHFNQGITLHNREEIREWFQRWLDNFPRVQVHVEIHIDGDRVEVHVTIHVTHGDRDITYHVTYEDRYENGRLVETRVTINQES 1048 PSEEEIKELDKQRIEALDNGDADTLAEIFHDGATFYHNDSQSRLNREQFREWVERWFKTFPRVHRQIDEIRVEGDTARAHVTVHLHNPTETITIHVTYEVHYKDGRLTELREHSDQKG 1049 TSEEEIRRIIKRLAEAFDNKDLDALEEIYHPGATFTSKTSTHDLDLKEWKKRVEEHLSRFKDSRHEIKSIHIDGDTATVHVQAHFHTDSEDITIDVTSHFHFRNGKLTREKQDRDQKG 1050 PSEEEIREILRRLFEAFDKGDADSFASYYDDGVEFTHNTHTQQFSKDELREWFERWHKTFKDVRHEIEEIRINGDTVTVHVTVTFHHDNRTTHQRVTRHFHFKDGKITHDREHRETRS 1051 MSQEEIEELLRRFYEAVDKGDLDAIREIMHENATITHDHSTKDYSLDEIVDMVRQFKEKFPNVHRQIDEIRIEGDRAEVHVTVHITTSHEDQTFHVTHHWVFKDGKVVEMREHFEQRG 1052 DQGTEAIEEWLRRFYTAINNKDADAIFELITPDATFHFHQPQTFTNAEEYKEWFERWVKSAGSYRVEIDSMEIRGDTVHTHVTIHVNHGDKTQTIHVTETHHFKDGKLVETHQHEDERPS 1053 PSQEEIKEWLKRMYDLLNKGDADALASLFAPDWTYHHASGRTFHSLEEWKKWFEETFKRFEFHIQITGIHIENGTVTVHVTITVTNKDGETRHVDVTDHHHFDKDGRLKETRSHLDEKPQK 1054 PSQEEIKEWLRQYYEAFNRRDLDKLEELLHPDATVHFSKGRTFHTKDEYKKWVEEFMKTFDFQIHIESIHIENGHVTVHYTVTVTRPNGETYHIRFTDHFRFDHDGRLVSVKSDSDERPQE 1055 PSQEEIKQWVERFFELFDRGDWEQLAKMLHPDWTLHHYSGQTFTTLEEFIRWYQSFFSNFEFHHELKELHVENGTVTAHVRVTMTSKDGETRHMRVTEHHRFDHDGKLKETHVHVDTKPQE 1056 PDEEEIRDIKRRYLEAIDHGDWEKAKKLFHPDATITIYHPDGKRETYDLEQMVEMIQRLLKQGDVRHEVKSVEFNGDTVTFHVTVTWHHNGQQHDSTVTYHDVYKNGKITETHIRRDDEG 1057 PDEEEIEEILRRLYTAINEGDLDKWDDLFHPDATFHEYKKDGSSSTYDLEQWKERWRELQKSGDLHIQIESIHFDGKTVHVTYTVTFHHNGQQYHITYHDTYRFRNGKITEVHSQEDTHG 1058 PDEEEIERILREHYDAFDKGDMDKVSKYVHPDATFHHYKSDGRTETYDYEQYMELIKQWMKRGNSSHEIKSIEFDGKTVTVHYTVHWTHNGQNHTVTATDHYHIKDGKITEVQSQEDSHG 1059 PDTEEIERFVRRFIEEVDKSGDADAAKSYYDKDARIDFSGGQTYSLDQFREWVERMFKQGWEVEIKSIEVRGDTVHVHVTMHNRNTGQQVDVTRTFHFRNGKLVKDEIYEDPS 1060 DEEELRERIKEIKTRFAEAMNKGDRDAIKELLHDDAQFTQSGNTFSLNLDQIAKWFEELFRQDVQVQVDEIHIEIKSKDEVTVTVHVTFHNKRTGSTVTATSHDRYQYTKDGVRLTESRMHSQQVT 1061 DEEEIKKEVRKILKRFFEAFNKGDWETIKRLMHPDATYVNNGQQYKLNQEQWAEWVKRMNSNNFRIEVKKIDIEIKSKDTVTVRVEWTMHQDRTGRTFHGTTTFHMRRTKDGWKITRVEEHVQEQK 1062 MSEEEIERIVRDWVRRFIEAMNRGDVDAVVELYHPDATFTDQNGQEYDLEEFRRWVEQMVRANVHIQLDKIDVEIKGTRHVTVTVHVTFHQEHGNQTYHVTSHFHFRLDDGRFYLTRERIETHST 1063 SDEEEMREHIKELVERFYDAINKGDLDKLREILHPDATFHHANGQTYDKEDFLKWVEELKKNNTHVQIDSIEIHIHGSTEVTVHVHVTFHTEKGNETYKVTETHRFRLTDGQFYIVETHVETHST 1064 TSEEEAKEEIRQWVRRWYEAINRGDMEKVKRMLHPDWTYHNQNGQTYDLDEFLKMIEELLRNDVRIQIDEIRVQIHGTTTVEVEVHVTFEFKNGGETYHTTDHHRFELKDGRFYLVETRVHMRST 1065 YSEKEMEEAIRDLVRRFVEALNNGDLDALDELYHPDATFHHASGQTYDKEEFKEMVKELIKRNAHFQLDSVHVQIYGTNEATVEVHVTVHFEHGNETYHFTRHLHFRLEDGRWYLLEDHLQRHST 1066 TSEKEIKEAVKDIVRALVEAFNKGDMDKIMSYYHPDATFHQYNGQTYDLEEFRQMVEKRLSQGVKVELKSIEIHVDGTTEVTVTVHVTFHFSNGNETYHATRHIRLRLEDGQFKIIEDQEHTRST 1067 PGEETAERAAREVLRRWFEAFNKGDLDTLRELYDEDAKFTNIKEQQTYDREEFEKMVEEMMRHPFHIEVKSIEFQFNSDDEITVTVHAQVHFHDDPKTYDVTFHFRLRFEGDSWKIVEQRTQRDPT 1068 PGEETLREEVKKVLKRYAEAMNTKDVDAIEELYDEDARLHIYATQRTFDKEEIKRWYEELMKHDFHVEIKKIDIQVDHNDQVTVTVHMTIHFRDDNKTVHVTAHFHMTYEGDRMKITEVELRHHPS 1069 PGEETLKRLAKEFLRRLYEAFNKGDLDTILSLFDEDWRYHDTSQQRTFDREEFKEWVERLLSFPFRIEIKSIHFEIKSGDEITVTVHATVHFAHDPKTTHTTDHHHFRYEGDSLKIVETQESRHPT 1070 PGEEEAEKAARELARRMYEAFNKKDLDKLLSLMDPNAQYTDANRNRTFDYEEFKEWVEEFLKYDFHIQIDSIEAQFHSDDEITVTVHVTIHFRTDPKTVHVTHHWHFRYEGDTWKIVRLQENRQPS 1071 PGDEEAKKAIKEWLKRFFDAFNNKDLEKIERLVDDDVQFHFAETQKTYDKEEFKKWVEEMLRHDFRIEVKSIEIQADHNDEYTVHVHWTVHFRDDPKTVHVTTTFVFRFEGDDFKLVELRMRSHET 1072 PGEETLKEQIKEVLNQFFRAVDEGDADTADSYLDEDWRFHNVSQQRTYDREEFREWVERFARIPFHRQIDSIEIQIDHTDEATVTVHVTVHESTDNRTYHVTEHHRMRYEGDTVKILRTHVNTQPD 1073 PGNETLEEAAKRIVKALIEAFNNKDLDTLSELYDEDAKFTNYSTNQTYDYEEFQDMVEKLMRYDFRIEVKSIHFHFHKDDEITVEVHFTVHFATDNKTINFTSRFVIRYEGDTFKIVSEHVRSHHT 1074 PEEDERAVRETDKRRWEAINNGDADKVKSLFHPDATFHQSNGTTYDLDEFREMVERLFKAKVQFQVDSMEIRIDDNGEVTVHAHGTAHRDDEGKTVHFTYTIRYRRNGDEWYIVEYRENRDEKST 1075 NPEDEEAVRQLIRRFVEAFNNGDLEKLDSLYHDDARYHQQNGQTYNKDQIKELLERLMSQKVKFEVHSVEIRILDNGEVTVHVHGTFHFDESGQTTHATSTFFIVRRGDEYYIVSEELHTDNQST 1076 PGEENLEEEIRQWVRREIEALNKGDMDTWASLFSPDVTFHDQDTGRDFDREEMIEWWERLLKSAKRWRIELKSLEVNVHGDHIEVHVHITFHWNQDSRTITVHVTSTDHFRLEGDQVKIVERHTSTDEKK 1077 SSEKELKEIAKEIIERFYEALNRNDADTVASLLDEDWTYTQDGETYKFSRDEIKEWVKQMASQDMQLHIDSIEFQIHGTHTVTVTVHVTVHHRHGDKTHTVEVTDHHFFRFDGDEVKITETRSHRRPRD 1078 SSEKEIEEAIRDWIRRYIEALNTGDLDTLKSLYDEDVTFTHDGNTYKMDQDQIKEWYSQFAKDGTHIQLDSIHIEIRGQHEVTVTVHITFHHNRGDRTETYSVTAHFHFRLEGDSFKIKEVREHTQPVT 1079 MSEKELEEAVRDWFRKYFEAFNKGDLDALKSLYAEDATITHSGNTYHLSLDQIKDWYRKLLSQNVQMKVDSLEIRINGTTHVTATVHVTLTMHRGNKTQHVTVTYHFHFEFRGDEVKVKRVQAHHHPRE 1080 TSEKEMQEIVKEVVERFFEALNKGDWEKVASLYDDDVTFTHDGETYKLSKEQVTEWVKKFHSADIQLQIDEIRIQIHGTNEVTVTVHVTMHQNHGDRTKTVKVTSHIRLEYEGNDFKIKEEHEHRHPVE 1081 DDSEALERKVREWLRRFAEAFNKGDMDALRSLYAEDFTFQDSRTGQEYDLDELLKMLEEMFKNNVQMHVDHVEFQINDDGTITVHVHVTFTNETTGTHVHVTSTFHFERQDSQIKLKREHATHHQS 1082 DSTKEQIEKIREIIQRFFDAVDTGNWEEIESLYDEDFRFHNSNTGQTYDLEELLRMLRQLTSQGAHHEVKSIEFQFNDDGTVTVTVHVQVHYESQGRTFTVTSHIHFVFEDKQIKIKEEHMTTDEH 1083 DEEEAREAIKEIVQRYVEALNTGDMETIKELYHPDARIHFYAHNQTYDYEEFIRWVEEFLRRAKDIRIEIKHLEIKDTSDDSVTVEVHVEFHVGHETYTVTSHIRIKKTDGGWRIVEEHVRWHKQ 1084 DQPEIQEAAKEILRRLYEALDHNDMDTLESLFHDDWRYTEAATQRTFDKDEFKEWVKEWLSRAKDVRRQIDSIEIKETGDDQVHVTVHVTIHVGTHTVHATDHHTFRKTDGGWRVVSTRAHYNQT 1085 DTPEIQEEIEKLLRRFYEAYNHGDLDALDEMYHPDWRFTEAATQTTYDKEEFKEWVKQWLETFKDTRLQIDSIEFKEFGKDEVHVTVHVTMHVSHQTFKVTDHHTFRRDDGGWQIVRTQTHWNET 1086 DDKDAEEEVRKVIRRFYELIDSGDVDALRELLHPDWRFHLASRQETYDKEEFVEWLRQWLSSFKDVRRQLDSLEVKDTSKTEVTVTVHFTMHVRHTTWHTTDHHHLRRYPGGWRIVETEVHMQQT 1087 DTPEIEEAIKELIQRFFEALDHNDRETLKELFHPDARFHAASEQRTFNYEEFLRWVSEWLSRVKDVRHEIHSIEFKDFTKTEVTVTVHWTQHVGDTTVHGTTHIRFVRTDGGWKILEMRVQFHQT 1088 DTPEMEEQIREVKQREAEALNNHDMEKIKELIHPDARMHVASENRTYDYEEIVEWFERFLRTFKDIQFQIDSLEFKEFGDDEVTVEVHVTVTAGDTTYTVTSTDRYKRTDGGWKLVETTIHIQPQ 1089 DTPKDEEDVRQTDRRRIEAWNRGDIDKIRELFHPDARMHISATGETFDYEEIVKWFEEVLKKAKDARMEIESLHIVDFGDDQVQVTAHGTVHVGDTTVHFTYTIFYVRTDGGWKIVRVHVTYHQT 1090 PSEEEIKEAIKDLLRRLMEALDKGDWETADRLYDDDATIHHEETQTTYNKEEFIRRIQERHRRGIRFQREIKSVEIRVDNGDTVTVTVHFQVHEHRGDKTRTLNITSHIRFVFEGSSVKITEEHVTTNQT 1091 MSEEELREAIKEVIRRMMEAWDKGDWEKLRELYDDDATFHEISTQRTFDKEEYIRRVQELFSRGFQFHHEIKRIEIQINNGDEATVTVHYQVHTTHGDEHRTFDVTSHIRIRFEDSELKIQEEHVQTDQT 1092 ASEKEIREAIKELLRQFYEALDKGDWEKLRELMHPDAQFHNGSTQTTYNLEEFVEMVQRFASQNIEVHRQIDEVEIQIDDGDRITVRVRVTVHHHHGDETRTVEIHNTDVFQLVGSRFYIVEHRSTTNQK 1093 PDEEEQREQIRQTVRRLLEALDKGDWETVARLYAPDATITHISTQQTYDKEEFVRRVKRRHDNNVETHREVKSMEIRIDDGDHVTVTVHYQVHHHHGDKTQTVNVTSHIHVRFEDSELKIKEEHVQTDQT 1094 VHPEDEEEIRQWVRRFYELLNRGDVDAVASLYHPDATFHHQSGRTFDREEFREWIEKFLSQGFQIQITGIEIHQKDGHITVHVHVTVHNSRTNTTYHFTQTFHFRLIGDSWYLLEDHLTTRQS 1095 VHPEDETAVRELVKRWAEAFNKGDADAVASLFHPDARYHSQTGETYDRDEYKEWVQKFFSQGYQIHLEEIHIEQKDGEITVTVHWRLQDRRTGRTWQIDTHIHFRRFGDDWKITRMEVHTRQT 1096 VHPEDEEAVRQALRRYYEAMNRGDWQTLRELMDDDWRYHQHNGQTYDLDEFIDWIRKFLSRGYEIHVTSIHIEQKDGEVTVTVHVTVTERQTNRTVNFQDHHHFRRKGDEWKIVRTETTTRQN 1097 VHPEDEEEIRQWLRRFYEAFNKGDIEAIRRLFHPDARFHNYRGETYDVDEFAKWVKELISQGVRIEIKSIHIEQKDGRITAEVHVRVHHEQTNETFEVTHHWFFVKFGDRWYVVRVEERTHQT 1098 DEDQKAAEEVDRRRLEAFNKNDMDTLKELFHPDAQMHVESEQRTYDYEQIIERMERRARHFKIQLDEIHVEVKDDGTVTVRAHVTVTQDDTGRTWEVTYTFFYRRKDGEWKIVEVRIRTEPQE 1099 DQKKQEDQIREWKKRYFEAFNKKDLDTLEDLFRQTPDVRFHFNGTRYNLEQYKEYLERLLSNDVQIEVKSIEIRFDDDDHVTVHVHFTMHESKTGRTFHYTATDFYRFEGEQLKIVETRYHSDTG 1100 DEKELEEAAREIVRRYYEALNKKDLETISRLFQSSKDAKYTQDGTTYDIEEFIEMVERMMSHDVQFHVESIEVRNDSKTEVTVTVHVQVTDKRTGRTFTVTHHWFIRKEGDEFKIVRVQAHTDTG 1101 PSEEQQEKVKDWVRREVEAFNKGDMETWDRLFHPDSTFHMSNISREEFIEWFRRFFRTFKDAQMQVDSLEFKDASDTEITVTVHVTVHDDSTKQTWHFTFHDRFRFENGQLKLVSRQVHSQGS 1102 PSKEDQEKVREWLKRYYEAFNNKDLDKIRELIHPDAKFHISNVDREQYLEWVERFLKRFPDVHMQITSIEFKDQSKDTVTVTVHVQVHDRSTKTTIHSTEHHHFRKKDGQFYLIETQVHTDGS 1103 YSDEEVKEEIKKWLERFFKALDNQDLEAVASLFSPDWTYHNTDDNKTYSRDQFKKLVEEFLKTFPDVTHQIDSIEFQKNGDGTYTVHVHVTVHFKTETQTFTETHHFEFTKDGWRIVETHHTTVPT 1104 MSEEEIRQAIKELVERYVEAFNKGDVDALARLYAEDAKYHHASGQTYNREELKEWYERFMSQQWEMEIKSIEIEVKGRTHATVHVHITMHNQRTNETYHVTQTFHFELRGDEFKITEVHTTTHKT 1105 MSEEELREAVKDVIRRWVEAFNKGNADEVYELYHDDFRFHHASGQTYSRDEFKKWVKEMFDNNFQVTNQSVEIRVEGTTHVTVHVTMTVTQKSTNHTWTFHSTYHIQFEGDELKITEQHTQTDQD 1106 PSEEEIKEQIKQLVERMIEAFNKGDADLFYSLVHPDWKYHNNNGETYDRDEFKKWLKEAHDAGIQVTNDSLRVEVKGKDEVTVEVHLTFHDSRSNETYHVTEHHRFRLHGDQWYLTRTHAHTNKT 1107 MSEEELKRAVEEFVRRFIEAVNKNDLEAIKELYHDDFTFTTSNGETYSKEEFIEWVERMVSANLKFDLQSLEIRVRGTDEVTVHVHVTVHDSRSNTTYHFTSTMHFRFEGDELRILREHLQTDQT 1108 PDEEQQRKAKETVKRWVDAFNNHDREAFKEMYTPDATNSSYGLNYEQIIEFITRILQTFPRVRVHIDSIRVELQPDGTVVRVTVHLTFHFYKDGKQKTVKITYHFQLVFENGSVKIVNQQEHSDDS 1109 ASEEDQRKIKEVKQRFIEAFNTGDLDTIRKLVHPDARFAAYQVDLDQFIEWVTEVKRQFPNMQVTVDSIEVRADPSGEEITVTVHVTFTTTHNGETHQFRGTYHDVYRKENGEFKLVNSQESSDNS 1110 PSPEDQKAIKDVKRRYMEALDKGDMDALSELFHPDFTYAARNLDYDEFLEWVKQWLSRFPTARHKIDSMEFRLHPNGEEVTVTVHVTVHHTHNGRHETVTVTAHDVYRKKDGEFKIVRTREQRDNS 1111 PDEEEQREIKRILEELAEALDKGDFDTFLSYFDKDWRYSAQNIDYEEFEEWVKEYQRRFPNVQRQIDEIHFHLDPSGEEIRVTVHVTVHHHHNGKTDTQTFTEHHLIRKENGSFKFVETKTQTDNS 1112 PDEEAQRAIKELLQRYFEALDHGDLDTLRSLFDEDWRDSSRNLNLDQFAEWVEKFFRRFPNARHQIDSIEIEQHPNNRTYRVTVHVTVHFNHNGKTKTVTVTEHHVFVKENGSWKIKHTTTHRDHQ 1113 ASEEDQKAIKEIVERYMEAFDKGDLDTIRELVAPDATYRGLNIDYEELMEWIKRWAESFPDVHREIEEIRVELDSNNRTFKVTVHWTVHVNHNGQTFTVRGTTHIVLEKQDGSFKIKSMQTHVDNG 1114 PDKEDQEEIKKTKQRMAEALDKGDRDTLRELFHPDFTFKARNIDYEEFIDWVTEWVKSFPDTKREIKSIHIEQVPEGHTYHVTVHLQVHTNHNGKTTTQRYTSHDRYRKENGSFKLIESQVHTDND 1115 DSEDEQREAVKEVLKRFYEAVDKGDLDTLEKLLHPGARFHDTSKGQTYDQEQFKERVERQVRNNIQREVHVQRIQIDGTHEVTVTVEVHVHEHHGDETQTHTFQEHHTLRQKDDTFKIIETRITSYQT 1116 PEKELEEAVREWVEREVEAWNKRDADTWASTLDKDSKYHQTDGPTTYDWEELKEMFERTASSDFHIQITSMEVRIIDDTRVTVTVHVQVHQTHGDQTKTVHITYHLHFEFHNGELRLVEKHSTTDEKE 1117 DPKELEEKVREWIRQWVEALNKRDLETLKSLYDKDSRVHTTSSPQTFDADQFTEWLKKYASINFQIHITSLEIRIIDDTHVTVEVHVQVHETHGDQTHTIRFTYELHFRFENGQIKLVSQRETTDTSE 1118 PKDEEQAEQIKDVKRRLIEAFNKGDADALSELFHPGAQFHNSEEPRTYDQEEFREMVERAHRNDVKVQLDEVRIQKVDEDEITVTFHLTVHFTHNGQKVTIKITFHDRYRQTKDGWKVVETHVTEDPKE 1119 PQEDELREQAKELLERFYRAINQGDLKAVADMYTPGWTYHNSEEPRSYSKEEFIEMLKELLKNDTKHHIEEIEVEVKDENEVEVTVHITVHSTHNGQPYTVRVTDTHRFRYEKDGVKIVETHTTTNPTE 1120 DKEEMEEAVRQLIKRFYEAFNKGNLDEVASLLDEDWRYHSGQQNQTYSKEEFLEMVEKLIKAGTHLHITSIEIHFDDSRGEVTATVHVEIRTTKDGREKTVKTTDTHHFRQENGSWKIVETRVSRDEKD 1121 TSEEEIREAVKDWVRRYFEALNHGDVDAVASLYADDARLTDASTGQTFDKEEIRDRIEKFFKQSDFRIQVEDLHIEIDKDGGHATVHVHFTIHVTHKNGETRTVHITSTFHFQFEGKELKLKEEQVHRDNGG 1122 ASEKELREAVREWLRRYYEALNHKDLDKVVSLFDDDWRVDFSETGKTYDKEEYREMVERFMSNSDFRIEIKSIEIRVDPSGGHVTVHVHVQVHVTDKTGRNHTVDTTDTHHFRMEGDELKIVKTEFRFDHGG 1123 PMSEEEIKEFVKRFYEAIDRKDAETLRRLLHDDATMHVSNGEQYDSLDSIIERWYKKFVSHAERARHEIKEIRFDGDTVTVHVQVHLTHSSGTQTYNVTDHYVFRGKRITEIRSHWNPQE 1124 PGEEKLKELVKRYVEAFNNRDMDALKSLFAPGWTFHDQSGVTFNNRDEFVEYWLKTLMSRFKEFHMNIDEIRIDGDTVTVHITVHWHHDGETRTQHFTEHHHVRGDKITETHQHFDQRG 1125 PSEEEIRQLVRRLVEALNNRDWEKFASLFHPDATIHVNGQTYSNAEEAARQFVEKFAKTFPKARIEIKSLEIDGDTVTVHWTAHVSDEPTTFHGTTHIHVRGKKITRMQIHIDSQP 1126 MSEEQIRQWVREYVEIFNHKDIDALASLYDEDARIHYNGQTYGNYQEAAKKIYSEIFRTFKNARLEIKRLHIDGDTVTVHVTMHVTDQPTTFHMTVHFHFRGNKLVEVHIHVDQHD 1127 PTSEEQIREWKKRYIEAWNKGDADKLEELFHPDAQVHFGTEGQTFDTLEQFKEFFKKMMSNNSQIEVKEIHIDKSTGRVTVHFTMHVNTDSQTYTFHATSHDRYENGKITEHRTQFDPQ 1128 PISEEQIKEWLKRYFEALNKGDLDKLKELLTPDWTFHLYAENKTFTNLEEFLEWVKQMLSLNIRIEVKEIHIDRSTGRVTVHVTVHMHTDSQTYTFHATEHHQFENGRLKETHQHVDPK 1129 SLQEEVEEWVRRWVEAINRGDLDAVASMYAPDATMHVSAEQVTFNSRESIKKFIEKLVKAGFRFEIKEIRIEVKDGTATVQVHLQVHDESTNRTFHVTSHFHFENGKLKEQRTTWNET 1130 SLEEQARQIVKRLIEAFNRGDMDEIFELYSDDATVHFTHENVTFHTREAIKKWFTELFSQNWHVQLDSMEVEVKDGTVTVHVHVTQTQQDTKRTRTVTSTFHFKDGQLKEEHVRWHQT 1131 PDEERAKDIVKKFYEALNTGDWETAVRLMHDDARFTVKSENRTYTTKDEITEWIRRFFSQNIRIEIKRIEVETKDGTVTVTVHVTLQDKRTNRTFDATHHWHFKDGRLVEVRQQVDER 1132 TSEEQMKELIKRFFEAVDKHDMDKLDELVHDDATYHDYRTNRDYDKEELKELIREWLEKATDVRHEMENPDFRFHGDTVTVHWTVHRTQNGQDFTVKATTHFRFTDGKLVELRVREDDKS 1133 PADEEQIKEWIKRFFEAFNKKDIDALANLFHPDATFHFYDGTTFHSQEEFRQYMEEFFRQFPRTHVQIDSIEFRGDEVHVHWTMTLHKDGQQYHIRYTTTFRFRNGKITEVHFQEDS 1134 PSEEEIKEFDKQRFEAFDRGDWEAVAKYVHDDATFTHNNRTYPMSRDEFTEWVKRFLRRFEEMHREWDSNIEVRGHTVHVRFTVHFTQNGKTQTVDARYDFKYRNGRLTRVETQRNTKD 1135 MSEEEIREWVRRFMEALDKGDWDALKKLLDKDSQIHFPESQKTYDLDQFVEWYKRFKRTTDRTQRHVDRIEIHGDTVHVHWTLHTTHQGDTYTFHGTTTFHFRNGKLVEVRFHVDSHKT 1136 MSQEEVKELLKRFYEALNQRDADKAASLFTPDATVHFFHGSQQDDITSLDQLKEWLRRWLKKFPDTKIEVKEIRVDGDTATVHYTVHQTQGDQPQTMHATDHYHFTDGRIKEVHSRFDPSAFT 1137 PQEEINKELIKRFMEALDKGDVDAAAELFHPGWTLHHSSGQTWTTKEEFREWVERLQKSLKDVKREVHIHINGSGTVTVHSQVHVTDDTGQTYTIDFTEHHHFEDNRITETHVQTDNQN 1138 PDEEKIRELLRRYYEALDKGDFDALREILHPDWTFHDSDGTTITTKDEFEEWVREIQSRWKDIKREVHIHINGNGTVTVHVTVHMTHDNGQRTTMHVTDHHHFRGDKITETHAHTHQEQ 1139 PKEEEMRRQVKEWVERYFEAWNRKDLDAIMSLFSDDWTYRDSRTGRDFDYEEFREWVEQWLRKFEDAKLQIDSITFHIDGDEITVTVHVTITDSSTGRTWHVTEHHHFRFTKDGLQIVETRVQHDQT 1140 MSEEEIKEIVKRLYEAFDKGDLDLLRELYDDGAEIHFYGQNITITDKDEFTEYVKRLFDNADTAHQVHIHISGDGTHATVHSHYHRTHNGQTHEQTVTSHFQFRDKRITEEQVHFNQN 1141 PDDTLEEQIKELKRRFVEAFQSRDPDKLRELFHEDVTFQHRHRSTTLGRDEYKEWVKRFIETFKDFRVEIKDMEIRATENSITVTVHVTFTFHHDSETKHYHATYHDEYEYKDGTVQLVRSQSNMHQEN 1142 PDSDIEEAIRQWFTHWLRAIDEGDADTLKRLYDDDVQFHHDNSTYKLDREQIAQWWREFFSTFKDVRHELKSMEIQSDKDHVTVTVHVTTTFHGDTSTHHFHATYHFFFRFQNGRLFLTRQQEHTQQQN 1143 VDKDQQEAIRQWLRRYFEAWDKGDADTVASLFDDDWTIEHSNETKNIDREQYREMFESFFRTFKNVQHHMESVEIRADKDHVTVTVHVTMHVTNDDQKQTYHATEHHHFRFENGELKIKHTQTHTNNSS 1144 DEQKEKIKDIIRKLIEAIDKGDADTAKSLYAEDATVHFSNGITFHSPDEFREWVEKFNKNTNARREFEIHIDDSTGTVTVHVTMHVNQGDQTYTVHMTRHLQFEGDKLREDRIQMHQQD 1145 DEHKEKIKEILSRFYEAFNKNDADALAELLHDDAQIHLSNGTTFNNKDEFRKWFEEFQSKFNTQVEWRIHVDDTTGRVTVEVQYHTTHGDQTHTADATEHHRLVGDKITETRTHIDQQD 1146 DEMEEKIRQILNRYYEALDKGDADAIFELLHDDWRMHSSDGTTFTDRHQFKEWVEKFNKEFNSRREWEIHIDRSRGTVTSHVRVTLNQGDKQTHFTVTETHRFRGDRITETRAHYDTQE 1147 DDEEEIREKLRQWIREFIRAVNEGDRDALKELYHDGATMHHASGRTWTTKEEIAEWFKQFTDQGFRLEVKSLEIQVDTDGSATVHVHVQVHQENTGRTFDFTSTFHFRFENGQMKLQEERIQTDEQ 1148 DSEKERQEKAKEWVRRYIEAFNRGDMDALAELFWDGWTFHHSNGQTFTTRDEFREWAEKLFSNDVQVEIESIEVQIDDNGRATVHVHVTFHFRRTGRTVTATETHHMEFHNGQLFVRETRAHWHQR 1149 DSEEEIKEKIKEFVRREIEIINRGDLDAWKSLFTPGSTMHINNGRTFTTQDELKEFIKELFDNQLQFEIKSLEIEIDSDGTATVHVEVEVHEERTGRTVTVRYTDRIEFHNGQMKIVERHITHNQQ 1150 DSEDEIKEKIKEFKKQLLEAFNKGDADALAELFTPGVTVHHSSGQTFTDLEELKEWMEKFTASGFQMQIDSLEIHVTEDGSATVHVHVTVHNESTNETYTVTFTDHYRVENGQLKITETHIYVHKQ 1151 DEKEMKEAAEELIRRFYEALNNGDADAAKSLFDEDKAEMHINGQTFNNADEIKKWIKEVFDNNTQLHVHSIHIQTHDDGTVTVTVHVTVTTNGNTTTVTHHWRFQQEDDKFKIVEVHQQTDQR 1152 ADEELQEQIKEWLKRYYEALDKGDLDTVLSLYAEDATVHNSNGQQVHYDEWVKRYIESLMKRFDSTRREIDEVRIELRGDTITVTVHVTMHFTHNGKHTTVHVTQHFHFKLETSDLKLKRDQVHNDSNSD 1153 TDEEAQRDIKEWLERFYESIDRKDLDKIRELVHPDATFHNSDGQRVPADEWVDKFYETVVKAFDQVHHQIDSIEIRQDGNTFTVTVHVTVHTTQNGQTYTFHVTHHWHFKKDSKEFKVTHMEEHRQQNKD 1154 PDQETREAIKEWKERFIEAINKGDMDTLKELVHPDATFHFNNQTFTDREEFAKWVTKMNRDGFRVEVKEIRISQHGDTATVTVHLTFTNEQTGSTMDVTAHDRYRRSNGSWKLVETHFHIQEKS 1155 ADKETQEAIKELIDRFAEAFNKGDWETLKSLFHPDARVHVDNQQFTTLDEIAEWAQKMFSQNWEVEVKEIHIELRGDEAHVTVHWEFHQQDTKTTVHVTTHITVRRSNKDWKIIRMEVRRNQQD 1156 TDPSDQEEIKEWKRRFLEAINKGDLDKVKKLVHPDATFHFNNTTYTTQEEIAKWVKEMFDQKWHIELKSMEIQKDGNEAHVTYHVTFHQEDTKTTVDVQAHDRYRKDNGDLKLIESRFHHNQKD 1157 TDEEAQRAIKDWFRQHVEAFNKGDMDKLASLYHPDATMHIDDQTFTTREEIKKWFEELFRQKFRIEVKSQEIQQDGDEYHVTTHVTLHQEDTKRTSDVTRHLRFRRSNGDWKLIEDRAHRNTKE 1158 MSEEEIKEEIKQWKRRFIEALNHGDVDAILSLFHPDATFHHARGQTYNREQFKEWLERFASNSDLRIEVKEIRIEIRGDEIHVTVHFQVTNPQTKTTRTFTQHDRYVLSKDLKLTELQTHTHDG 1159 MSEEEIKEWLKEFFRALDEGDADTVAELLTDDSRLHIESEQVTYNSKEEIREWVERARSTFDAQREVHIHINDDGTVTVHWTVTTHHNGRTHTFDGTTHFHFKDGKLVEVRITVHQRD 1160 MGEEAAKEQIKEWVRRYVEAFNKKDLEALESLYTDDAQVTFNETQRTYDKDEVKRWYEKVLKADHQIQIDSIEFRTDDDTTFTVTVHMTVTNDKTGRTFRVTFHFHFQRDSSQLQLTHLQVQIDK 1161 PSEEAQQAVREIIRRFYEAFDNNDLDTLKSLMHDDWTFHNASQQITFKSREEFLEWVKEFLKTFPDLKHEIKSIEIHQHGSTIQVHVHVTVHFGHSQQTYTVHDTHFFQKHKDDYKIVETRSHVDQA 1162 PSEEDKERIKEVLRRFYEAFNNGDADALASLLHDDATMHSEYNQITFTSKEEIKEFFKEFLKRFPDTEIEIKSIEIQQHGDYYTVTVHVQVHVKAHQQTYRVTHHWVLQKNGDDFRIVHVRERIDQT 1163 PSEEDQEAVKEWVRQWIEAWNKRDADKVASLYHPDATFTHNNETYDLSRDEFKEWVERWMRSFKDFSLELKSMEIRKSGDTITVQVHITIHYGDNNQTVDVTYHFFFRKENGSYKLIRQRTHRNERKE 1164 PSEEDKKAIEEIIRRYYEALNEGDMDAIAELFHPDATFHEDNQTFDLSREEFKKRVKEFKERFPDVEVRIDSIEIRQSGDTITVTVHVTFHFGKNNQTYHVTHHWFFEKQNGDYKITELREHRNNANE 1165 DREEREKQVRDWLRRFFDAVNKKDWKALMDMLAPDWRFHESNGVTLNNKEEFREWFERLMSNDVKIEIKSMEIRVHGDHVTVTVHVQVTHDSTGRTFRVTEHHHFRFTDGKLRLIETRVHHDGGEG 1166 DTPEDQEEIKQFKRALVEAFNNKDWEKVVEIIDEGATLHFSNGITLTTKEEITEWVRQFLSNDTKIEVKSIEIQKHGDEARVTVHMDVTFDRTGRTFKVTAHDRYKKTDGQLRLVESRFQFNGGEG 1167 DEEEMKRAAEEFLRRLYDAFNKGDWEALLRLFADDWTMHISDGETYTTKDEFREWVERMLSNTAHFQIDSLEAEVSGNTVTVTVTVTVTHDHTGRTFTFHDTHHFQFTDGQLRLVETRIHREGGEG 1168 PEEETRRQIEEWLHRFYELLDRGDADALAELIAPDAQYTDTNSNRTYDQEEFKEMVEEFKSKFPDSQHHIKSITFHQSGDEMTVTVHVEVHYNGSNQTVRFTDHYRFRKTKDSVRVVELRSTTDNTS 1169 MDKEAEEAIERLVRAFMEAMNKNDLETLKRLLSPDAKYHNSDTNRTYDQEEFFEMMERFMRTFKDFRIEIKSMEFEVHGDQIHVTVHWELHLTGSGQTQEFTTHITVDRTKDSFRIVSWTETTHNKG 1170 ASEEEAKEWIKQWVRREAEAWQNKDLDAWASLFHPDSQVTHSDEQRTFDKEELREIVERILRRFEDVSVEVKSLEIRFHGDDVQVHVEVTFHFSGSNQTRNVRYTDRFRIENGQFKLVSRTVTTDGT 1171 TSDEEAKEALRQVVRRFYEALDNHDWEAIARLLDDDWTFHNADEGQTYDKEEFIEWVKEWLKRFDNFRHQIDSLEIEKRGDEYTIHVHVTVTFDKSNTQHRTTDTHVIRQENGRWKIVETHMQTDGT 1172 MSEEEQREAVKDVVRRYIEALNKKDLDALLSLFDEDWTYTNANENQTYDKEEFREWVERFLKTFPDVKIEIKSQEIEFRGDTITIHTHVQVHFAGENQTVDVTETHHLELENGQFKIKRTQTRTDSS 1173 SEPEQREKVKEWVKRFYEAFNRRDLDELASLVHPDGTFHHNNQTFHLGKDAFKEWVKEFLERFEDVKIEIKELHVEVNGDTVTVEVHVTFHFHHKDRTQTRHVTDHYHFRFENGELKLVSVQSHTDTRD 1174 PETEEVKEQIKEWFKRYAEAWNKKDWQTLAELFDPNSEFHFAETQRTYDWEQFVEWVQRLLSRASSARMELKSLRIEQRGDTFHVTTHWEVHYSETKETYHATTHLTFKKENGSWKLAHFQIHTQKT 1175 PEKDEAEEAIRQWVRRYIEALNKKDWKKVADLFHPDATFRDSREQRDFNWEEFVDRVKKLLEHLSSSRIQVDDLHIEQRGDEFTVHVHWTQHRDETKTTFHGTTTLHFRKENGSFQLKEMQTTTQQT 1176 PEEKEAREKIREIKRRFAEAFNKKDWKTLADLVHPDSTMEDQSTQSEYNWEQLVRIVRRRLESLKSFRVEIDDMEIRAHGDEFTVHVHMTLHRSDTKTTYHIDATDHYRLKDGQVRLVRSTFRTQPS 1177 PGEEAMEEAIRRIKRRLVEAINNGDWETVLRLFDPNATVHFSKSPQTATTLEQIRRFVEEFLKANAHFEIKSIHIQFDSENTVTVTVHITVHFDNTKTTVDVTFHDFYVRKDGQVKIVETRIQFDHT 1178 PGREEQEEQIRQMLRRFAEAFNNGDVEALAEMFDDDWTVHFSQSNTTFHTKDEFKKFIKELLSQAWRMEIRSIEIRFDSDNEVTVTVHVTFQNEKTGETVDVTEHHHFRFENGSVKLVETHIQFDHK 1179 PEEEEDKRQIEEIDRRRIEALNHGDADAVLSYFHDDAEFHYSATNTTLTTKEEIREWFERFISIPFRIQIHSIRVELDGNGQYTVHATVTVTHRPTGTSVTFTYTIKYRRTKDDWRIQRVQIHYDDGGD 1180 ADPKAQEDIRQWVRRFYEAFNNNDMDALKSFYDEGATMHLWNGQTFHSQDEIKKWFAEMFSSGVRLEIKSIEIHQNGDEFTVTVHVQAHTSHSTYDVTQHFFFEREGDTWKLKRDEIRMHQT 1181 PSREEIKELLDRMYESLNRNDVDTFVSLFAPDWTLHIYQGKTFTTLDEVKEWVEKWLSDWTGSRIQIDRMEIHGDTVTVHVTQTLSKTGTTVTITDHHTFQNGKLTETHSHEDST 1182 MSEEEAKEWVKQFYEALNNGDMDAVASLYTPDATYHVWNGQQFDTRDEVKEWFEKYFKSAKDAQIQIDDLHVDGDTVTVHVTQHEGHSGRTFTITQHFEFTNGRLKRDETRRNQQ 1183 PSDEEIAETLVKRYIDALNRKDIDELASLYTDGSRIHIHNFRGETINIRDKDEYRKVVEKMLRELEDVHFEIKEIRVDGDTVTVHVTMHVTDSSTGKTTTVNVTQHIQFKDGKIVRHEAHFNQTD 1184 PSEEEIAETVNKRIADAFNRKDLDKLVEIFTPDWQAHITNWTGNTVTFHSLEEFREWAEEWLKRFQDTHIEVKETRVHGDTVTVHMTVHTTDKSTGKTTTINVTEHHHFENGRLVETHIHIHQTD 1185 ASEEEIRELIRRLVEAFNKGDMDAIKELYDDGATVHFWNGRTFTSKDEIKKWFASMQKDIRLQITRIEVDGDEGTVHVQVHNNSNPKTFDVTSHIRFKDGRIKSERVHMRETD 1186 PSEEEIKEIIRRFVEALDKGDADAALSILHDGWQLHVYNGQTFHSREEFKKWVESLSKDTHRQIESIEIRGDTVTVHVTVTHGENPKTFKVTEHHRFKDGKITETQIHMNQTD 1187 MSEEEIRETVKREAEIWNKKDWEAWASLFHPGATMHHSNGQTWTDLEELTRWFQSIDRSVKVQIDSIEVRGDTVTVHMTFHNNKNPQTFHVTVHIRFKDGKITEKHIHTNQTD 1188 MSEEEIREVVKRFFEALNKKDWEAIKRLLHPGVTIHHSDGRTFTDLEEFAEWVKSLDSNLRIQVESIHVDGDTVTVHWTVHNGKEPRTFRVTTTFHFKDGKITEIHVHRNQTD 1189 PGEERIKEFLRRLFEAIDRGDMDAIKELFAPGARMHINNQTFTTLDEIRKWFEEMFKSLKNSRHQIDSIEITGDTVTVHWTLHVTHEDGSTVTMRATTHFTFDKDGRLVEMRIHEDQDDR 1190 MSEEQIRQIVRRLVEAFDKGDWKTLKELYAEDATVHFSKGQTFTTLDEFAEWIRQFASNWDLQRQIDRIEFNGDTVTVHLTVHRHHGDRTITVHVTSTFHFKDGKIKEEHIRWDERE 1191 TSEEEIKQWIEEFFRAIDQGDAEAIKRLFHDDARLETNRGEEWTTPDEIAEWFKRVWENWDSNHEIKRIEFNGDTVTVHWTAHRNHGDKTVTLHGTTHIRFKDGKVTEMRIHVDEHD 1192 PSEEEIKEILRRFYEAFDNGDLDTLKELLHDDWQFHESSGRTFTTLDEFLEWVKKVIDNWNTAHHIERIEINGDTVTVHVTVHRHHGDRTITVHTTDHHTFKDGKITRTEVHWDERE 1193 TSEEEIRETIRRLVEAFNKNDWEALARIYDDGFTFRWSNGETLTTKEEFVRWVQEMIKNSDTKVEIKSIEIRGDTVTVHVQVHTRHGDKDHTVDVTSHFVFKDGRLKEEQFHTDQRD 1194 SGEDQERIEEWVRRWIEYMFKTGDADTVASLMHPDWTFHLYNGQTFTSLEEFAEWVRQWWSQFPDAHVEIKSVEIENGTVTVHYTVHVTHNGQPYTFHVTEHHRFKDGRLTETHQHRRNT 1195 SEEDQERIEEIKRRMIEYLIKTGDVEHFASLLHPDAQLHVDSGTTFNSREEMKEWWARFFKNFPDVRVEIKRIEIQDGHATVHVEMHATHNGQKYTFHQTQHDRYKDGRLTESHIHTETR 1196 MSEEQIERWIRRMFEAWNRGDVDKLVELYTPDVEVHYFHGNETYTFTTLDEIKEWLQQLFERFEFHIQIHEIRTNGDTVTVHVTVTFTHGDETYHMRVTRHFHFKDGRIKEDHIHFDQKQ 1197 ARREEIERTIRRMLEEVFNTGDADAAASYYDDDAQLHIWNGITFDTKEEIKKWIEEFWKRFPDSKLEIKHVEFTETHVTFHYTVTFNHDTGQIHVDFTSHFEFTNGKLVSERIHSNQRN 1198 MDESEIREILREMYERLFNTGDADAFASYFHPDATFHFSEGITFTTLEELKEYLRQWYRKFKDVHVQIDSMHITETHVEVHVTIHVRNKDGKVTIHVRHHWRFSDGYIVELRAHFDRKN 1199 SSEEEIKDIKKKFFEALDKGDLDKLHDLIHPGATFHFAWYQQTINDRSEFLEWVRSLLENADVQHEIKSIHVSGETVQVHVTFHVTHNGETRQYQATVHDRYKDGKLTESRFTTNQD 1200 PSEEEVKEWVRRFYEAMNNGDLETLHQLLHPDATMHVSRVQITFHDRSEIIAFIKRTLEEFDLSIEIKSIHVGGDTVTVHYQVHTTHNGQTRTVDVTDHFHFKDGKLTEVRSHFNQT 1201 SRKEEIEEAVRRFFERFIRAFNQNDADQVAEAFDDGATFHAPDGTQFTTKDEIKKWVEEVASQFDGIKVDDVEIHIHDDTVTVQWHITFHHGDETYHIDVTTHITFKDGKIKEFRIRFDNKE 1202 SEQEEIKRILKDFYEKYFDALNKGDVDKIIEIIHPGVTYWHTSGQTFTTLEEIKEFIERLLSQIRGIEVKNMEIHVNKDKATVHITQTVNRGDRTYHVDSTHHWQFKDGKITEIREHNDQPT 1203 SQNEEVEELVRQFFERFLRALNTKDADTFLSLFDDDWKFYHKSGRTFTTKDEFKEWFERFASNFDRVEIKDLEIHVNGDTATAHVTFTYTHGDRDFTNTVTEHHHFKDGKLKETRQQRDNQQ 1204 PFSEEQVREWVKQYAEAVNTKDLDAIASLYDEDATFHHSNGRTFTTREEIKRWYEEFLRQDWQVQFDEIRIEGDTVQVHVTFTNSHDSKSWTATFHFHFRNGKLKEVRVQENQT 1205 PLSQEEAKEIIKQYVEAFNTGDMDKLKSLYTDDATMHHSNGQTWTTKDEIKEWYERLFSQQWRVQLDRVEVHGDTVTVHLTFQNETDSKTVKYTFHIRFENGKIKEVQIHTNQT 1206 PGEELIRRILRRFYEALDNKQDELKEILHPGVTYHDSSGRTFTDWREMADWLLEWFRSHFPDAKREIHSIEIRGDTATVHYTIHVNTDDRTITIHATDHYRFENQRLVEVRSHRDQDNNS 1207 MDEEEIKQLLKRFYRALDEDWRKFASLVHPGATFHFSGLGITFTTHEEFIRWFTEWFRKRFRRTAHEIKEIHVDGDTVTVHVQVHVTHDDGRTQTYDVTEHHRFRNGKLVETRFHFHSK 1208 DSEDQQKIKELVKRFFDAINRRDLEALRRILHPDAQYHNNNGQTLHTLDEIIEWFKQLMEEFPRAHIEIKSIHIDSSTKTATVHWTLHVTHPDGQNQTIHATTHFVFKDDKITEIHVHENGG 1209 PSEEELKEWVKQFFRAWQDWEQAFEFIHPDTTIHEHRNGETYTFTNREEIVDFLQKFLSNHNIQIHIHRIEVHGDTVTVHWTLTVNHDSQQYHYSATTHFVFKDGRVTEVRMHIHQTD 1210 QGKEEIEKIIRRLYEAFNRGNLDEFISLFHDDAQQHTNHPSGETYTFNSLEEIKEWWKRLFDNDTHVEVKSIEIRKDTVHSTVTVTINHNTQTKTMTVHETHHFKDGRITETHITFDDDG 1211 PGEEEIRRWLRRYYEAFNRGDADELASLFDKDWTFHYQDHNGQEYTFTTLEEYKEWVERLQSQGAQMEVKSIHFDGDTVTSHVTIHITHGDTDHTFDVTEHHRFKDGKVTETHVHTTDRG 1212 PLEEQIRQWVKRWVEALNNKDVDALASLYHPGATVHFSKGETLTTLEEIREWFERFAKTFKRMHIEIKDLHIHGNTVTVHMTVHLTQDGRDVTTNVTSTFHFKDGKLTEQHVHIDDEH 1213 TDKEQQEKIKEVVERFYDALNKKDLDKVASLFHPHAQMHISDGYTAHSRDEIKKWFKEWMEKVKDFRIQIEEIRIEGDTVTVHVTVTTHHNGQQYHIRVTEHHRLDHNGKIVETHQHVDNSE 1214 ASEEEIKEWVKRFFDAFDKKDMEALKELVDEGATFHFYQGKTFTDKDEFAKWVEEWLKRAKDTAHEIKSIEFRGDTVHVHWTVHVHHDGRTVTIHATTTFHFKDGRLTEVRFNLDNQPT 1215 TSEEEIKEWLRRFYEAFNKGDLDDLHRLFHDGATMHISNGQTFTTREEIKDWFRRVLESAKDIKIEIKRIEFDGDTVTVHYTVTVNHDGKTVHVHATDHFRFKDGKITEVRSRFDQHDT 1216 TSEEEIKDVKRRFIEAFNKGDLDALASLVADGATIHFAQGETITTKEQFKEYIDRVLKSVGRVHIELKEVRFDGDTATAHVTMHVHRPGKTVTVQATQHDRYKDGKLKESRTQFDQQDS 1217 ASEEEIEELLRQFYEAFDKGDADRLFELLHPGATVWLWEGTQFNTREEFKEWVKEWFKQAKRVHREIKSIEFRGDTVTVHYTVHVHHDGKTVTTHATDHFRFKDGKIVEVRSHEDTHDT 1218 PSEEEIRQWLKRFYEALDKGDMDKLRELIDDGATFHLHQGTTFKDKSEIEEWMERWFKTVGDVRREIERIEFHGDTVTVHYTLHVHHPGKTVTIHATDHFHFKDGKLTRMESHFDRHDT 1219 PGEETIKELLERYYDALDRKDMDALEELVHPGATMHDSNGYTATDREEIKEFWRRLFETELKDSRHEIKEIHFDGDTVTVHVQAHFTHKTGQHFTFDVTHHWVFKDGKIAHLTYRVHQKD 1220 PGEEHIREWKKRFVEALNQGDYEKLQELLAPDFTYHNSNGYTATTKEEFIRFYQELHKNGFTDVKMEIKEIHVDGDTVTVHVEVHVTHKTGKTYTFHVTTHDRYKDGKLVETHQQWHQQD 1221 PGEEAIREWVKRFVEALNKKDMDTFKSLYHPGSQMHDSSGWTGNDVESIVEFFKRLFEETYTDVKIEIKEIRIEGDTVTVHMTMTVTHKDGRTVHIDATRHFRFKDGRLTEDRLHFDQKD 1222 MSEEQIRDFVKKYLEAINNKDVDKIVSLYAPDATVHFSRGETLTSLEEIKEWYKRFLESVGDIHVELKEQRIDKDTVTSHVEIHVTHKDKTKTVDVTFHFHFRGQRLTEVRVQEDDRD 1223 MSEEQIREIIHRWYKAWNDKDVDKLAELLHPDWTYENNNGERINSLEEFKKWVEEVMSSNGDFRVELKSIHIDKDTVTVHFEVHVNHKDKTKTMKTTDHHRFRGDRITETQVHVNDKD 1224 MSEEQIKEWIKRYVEAFNKKDVDTLASLFSPDWQYHDSSGETIHSLEEFKEWVKQFMERAKDVRMEIKSIEITDDTATVHVTVTYNHDGKQIHADVTEHHHFRGDRITETRVTFNPQD 1225 PSEEEIKEILERYFEAWDKGDWEKLLELLHPDWTQHVSNGQTFTNLEEFREYFERFLSRFERSRHEIKRIEFDGDTVTVHVQAHFRQGHQDYTTDVTEHHRFKDGKIVETRAHYDTKRT 1226 SDREEIKEFKKQLIEALDRGDADAFAELVSDDVTFTFQQGITHTTKDEFAEWVRRWFSSGFDEVRREIKSMEIDGHTATVHVTVHANHRNGQTFTTHVTYHDRYQDGQLTETRASFDTKDS 1227 PDERIEEIIRRWFEIFFKTGDADKAADLLHEGATVHFHQGITATTRDEIIKWFREFFSTLKDIKFQIEEIRVDGDTATVHWTATVNMNGKTVHYRGTTHFHFENGKIKEVHIHIHQEDQS 1228 TSRKEAEDIARRYLEEFYKTGDWHAAADYYDDGATVHFAAYQITFKTLEEIIRFLRRLLSRMQEAHVEIKEVHIEDNHVTVHYQLHFTTDGQTQTYRFTSHIQFTNGKIVSERIHMDSGE 1229 PDEEEIRKLINRYFEAFDKGDLDTLKSLFDEDWTQHHSSGRTFHSLDEFKDWVKKFLSNVETAHEWEIHIDPSGETVTVHVTVHLTHGNRTTTVHVTEHHHFRNGKIVETHIHEQPDS 1230 PQEERIKEILRQLFEALDRGDADHFASLYAPDATIHFSQGITLTTREEIKEWVKRMNANSEIHREFEIHIDPSGSTVHVHFTVHRTHGDQTHTFHITSTFHFKDGKIKREQVHIQPDS 1231 PDKEEIKEWIKRYFEAMDKGNVDELLSLFDDDWQYHNSNGETITSKEEFKEWVERWFSNVDTAHEVHIHVDDNGETVTVHVQVHQTHGDKTQTIDITEHHRFKDGKIVETRVHVQPKS 1232 PAKEEIKEWKRRYFEAFDNGDIDAMAELVHPDAQFHYSNGITFNSLEELKEFLESTFKNTDSKHDFEVHIDDNNETVTVHVHVHLHHGDKTQTIDVTQHDRYKDGKLTESQIHEQSKS 1233 PDKEHIRTILERLYEAFDRGDADAVASHLHPDARFEFSKGYTITNLEQFIEWVRRFISNTDVHREVHIHIDESGEHVTVHYTVHFNHGDRTQTVHATDHFRFRNGKITRVQSDVQDDS 1234 PDEEEIKRLVEQFFEAFDKGDLDALASLYHPHATVHFAQYQVTYHSRDEFRKFFEEFWSNFTGSHHQIHEIRVHGDTVTVHVTTTFTHNGQQVDVRVTRHFTFKNGKLVRDQIQFDHT 1235 PLEEQIKEWKKRFIEAVNKGDMEKLRQLVHPDAQFHFSASNTTFHNLEEFLKWVEEWLKKAKDARIEIKSIEVRGDTVTVHITVHTTHNGQKVTVRVTVHDRYRNGKLVESRFQFDGS 1236 PSEEEIKDFVRRLFELLDRHKDADLMKKLYAPDATMHVSNGITFNSQDEIKKWFEEFQKKFGFQAQIDSMEVRGDTVTVHVTITMHKDGQTYHVKVTSHFRFDKEGKLKEEHIHEDQQD 1237 PDEERLKDWYRRVYEEAINKRDPDALASYYAPDAEVHITHNGNTQTYSREEFKEWFERWLKRFPRVHVQIEEIRVDGDTVTFHVTMHFHHNGKQITVTVTYHVTLQGDKIKEEHVQFDNQRD 1238 PDQEELKEWKKRVIEAIFNQRDADLFKRYVHPDATIHITQNGNTQRFDLDEFKEWFERFLSQFPRIHVQIDEIRVEGKHVTVHLTFHVHHNGKQVTIKQTQHDRYEGKRLKETHIHTDNDHP 1239 PGEEDIKEWLKEFYRAIDEGDAETLKQLFHPGATVHFQDGETFHDLEEIVKFFQELFKRSRSRHEIESIEIRGDTVTVHYTAHFTHNGQNYTFHATDHFHFENKRLTEMESHSDQRD 1240 PGEEKLRQLVRRYIEALNKNDLDKLEELYDDGATMHLSDGRTFTTKEEIKRWFEEMIKKSDARFEIKSIEVRGDTVTVHVTVHHTHNGKTITIHVTSTFHVRGDRIKEERVQFDQQD 1241 PGEEALREWIRRFIEAFNNRDLDKLRELYDEGATLHISEGTTFTTLDEIIEWFERWMKNADFHIQIKEIRVDGDTVTVHVELHVTHNGKTVTIRVTSHLHFKDKRLKEERVQFDQED 1242 PGEEKIKEWKKRFFEAFDKGDLDKLRELIHPGATFHFSEGTTFTTIDEFLKWVEEFFSNADFRHEIKEIRVDGDTVTVHVTVHVTHNGKTVTIQVTQHDRYRGDKLVESQIHFQQHD 1243 PGEEKIKKFVERFFEAINKRDLDKLRELFHEGATMHISEGTTFTTRDEIIEWFERFIKNAEFKFDIESIEIRGDTVTVHWTVHVTHNGQTFTIHATTHFEIRGDKIARVEIHFDQQD 1244 SSEEEIKQWLERFYRALLETNDPDAIASFFDDDATFHVHRGITYTSRDEIKKWFEEWLRSVSDIRIQIEHIEFRGNTVTVHYTVTVHQGDRTIHLTATDHFHFRNGRLKEMESNLNDQQ 1245 PDEEEIKEWKKRFFEAMDHNDIDKLLSLFSDNVTIHFSQENITLHTREELKEWIERFLSRFKDVRHEIKSIHIHGNTVTVHVKVTFNTNGRTYHVDVTFHDHYRNGKLAESRVQFDQS 1246 DSREEIKEWIKRWVEAFQKNDVDELLSLYADHVRVTFEAENQTLTTREEIKEWLERFIKRFKNIRVEIKRIEINGDEVTVHMTITVTHDGEQYHVDVTFHFRFKDGKLTEQRAHFSPQ 1247 PSEEQQKQVEEFVNRYFEALNKKDVDTAASLFDDDATIHFADNITFTSKEQFRDWVEKFLRHSDIKVEYEIHIDSSTGTVTVHWTMHVHHSHSTHTMHATTHFHFRNGRLKEMRTQIDRED 1248 ASEEQKEQVRQFVERYYEAIDKGDLDALDELLHPGWTYHNSNGRTFTSKEEFKEWVKRWISNMDTAHTMQVHVDSSHNRATVHGQVHVRHDNSTHTVDVTEHHQFKDGKVTHTRAHVDDRS 1249 PSEEQQTQIKEIKRRLAEAFNRGDVDALYELYHPGATVHDSSGITFTSLDEIKEWLRQFFENLDVNVEFEVHIDSSTGTVTVHFTFHVTHSDRTKTVHATTHDRYKDGKLTESRTHWDEKS 1250 PSEEQQSRIKEFLKRLYEAIDKGDLDALHELLHPGWQFHQSKGNTFTDREEFREYIKRIFDNSEVHREVHIHIDKDTGTVTVHVTAHYHHDNKTKEVHYTEHHEFRNGKLTSTQQHVDEKD 1251 PSDEEKIRELIKQFYRAFAEGDWETLMRLLDENWTVHFARHQVTFHSKEEFREFVERVNRNSDIKFEVHIHIDKSTGTVEVHVTFHVTHGDETRTFHTTDTHHFRGDKITETHFNFNTT 1252 PSDEEKIREWLRQFYEAFARGDLEALFELLSDDVQFHNSAEQVTFNTREEFKEWVKRFLDNSDVKMEVEIHIDKSRGTVTVHVTFHVTHGDETKTFHATHHWHFRDDKITRVEIHINET 1253 PSDEEKIKELIKAFYEAFESGDLDRAKEIVHDDATFHITSENVTFHNPDEFKEWMKQVLSNSDIKMEIHIHVDRSTGTATVHYTMHVTHGDETRTRDATDHFRIRGDRITEVRSTWNQR 1254 PHQREKIREWLERYYEAVARNDLDAVFELVSEDATFHYYWEQVTFHTREELKEWLKRLIDNSDTKMEVHIHIDDRNGTVTVHVTFHTTHGDETRTYHVTHHWHFRGDKLKEVHFRINQT 1255 PSDEEKIREWVRRWAEAWQKGDIETLASLYTDDSRIHYAAYQITFTSREEWKEWVARHLSNVDVKLELHVHIDRSTGTVTVHITFHFRHGDQDKTVHVTVHFHFRGDRLKEQRVHINET 1256 PDEEREQAKEWVKRFIETWVKTGDADAVEEFYDDDATMHLSNGQTFTNKDEIKEWFKRWIERFKDMQVEIKSIEVTDDTVTVHVTVHTTHNGEKYTFDMTSTFHFKDGKLKEERIQEDDKG 1257 HDEDRERAIEWVQRMIEMLVKTGDADAAASLFHPDWTYHHSNGQTFTTLEEWKEWVKEWVKRVKRVHVEIKEIRATDDTVTVHVEVTFHHNGKQVHIDITEHHHFRNGKLTRTQTHEHSRG 1258 PDEDREEAEEIVRRFYERWVKTGDYRVAQELMHPDATFHVWNGQTFTNLEEIAEWFKRWVERFKDFRFEIKSIEFTDKTVTFHGEVHFTHNGQQVTQKVTHHWTFRNGRIVEVRVRRHSTG 1259 PSEDQRQIEEFVRRWIEIVDKTKDVDAAKSMLHPDWQFHDSNGQTFTDLDEFREWLERWLKRFKDFRVQIDEVRFDENTVTFHVTFTFTHNGEEYHFDVPEHHTFKDGRLVETQVHENDVG 1260 TSEEEMERVLRRYYEAFNRGDLDALVELMTPDWTYHDETHGITITTLEEHRDWVRKFMERFKDYRFEIERIEFTGDKVTVHVTLHFTDKRTGQTYTVRVTDHHRFKDGKLKETRSRFNEVK 1261 QDDHQAAEEIIRRYVEAYNKGDMEKIKSLYHPGSTYHQDSGQTFDHEEFLEMVEKRARNTHVQLDHIEIHVKDGTITVHATMTVTEKGSGRTYEFHSTFHMEKKGDTLYIVEEHLHSDST 1262 PHDQQAAKEAVRRYLEALNRRDVEAVLRLFDDDWTYYDSSGQPYDKEEFKEWLEKYASLNFRIEITTTIHAEVKDGEVTVTIHVTVTWEQTGQTTHMTEHHHLRRDSTGWKIQRTQTHTDNTPT 1263 PDDHEEIKELVERFLEAFDKGDADTLDKLLHDDWRYHHESGRTFDKEEFKEMVERFASVRVKREIETTIEIHVKDGHATVTVHVTVTFEDTNTTTHATETHHLRKTKDGWKFVRTQQHTDNQPT 1264 PVDREQAAEVIERYYRAWQNKDIDALRSLLHPGATFYDSTGQRYDREEWLEMVKELLRHTDAQVQIHFDHFEQDGDEIRVTVTVHITYQATQQTYTATHHWRLRLFNGSVKILEVREHTRTS 1265 MSEEHIRRLVKRYYEAFNRKDMDEIKSLLTDDWRYHNDKTKRTYDVEEFLDMVRKALSTDIEIRIESLEIEIRGDHATVHVRVHITHRQTGQTFTTRDTHHLERGDGSGKFKETRVQFDDGH 1266 PGSEEEIKELLQRFYELLNNGDADALAELFHPDATFTFEGQNYDLEQFREWVERLFRANVDIQINGNIEIRFDGDEATATVQVTATNKQTGETYNFTHHWFFRQIGNQVFVIRLEIHSDQS 1267 AGSKEEIKEIIKRLVEAFNKGDLEAIKSLYHPDATFEFDGQTYDLEQYIEMVEELHKNDAKLHINGNIEIRISGDEATVHVNFTITNSQTGETYTYRRTFRFRQQGNDLRIVRDEVHSDQS 1268 AGSEEEVKDIVRRLIEAFNNGDLDALESLFHDDWTFHLNGQTYDKEQFKKMVEEMFRAGVKIQIEGNIEIEFDGDEVTVHVTFTVHDDRTGTTYTFHETHHLRLEGNRWRIIETRVTTDQG 1269 DAEEAIKQWVRRYVEAWNKKDMDALESLFDDDWTFHDSDGQRFNREEWKERVKRIQDNTDSQMEVRNSIHIEIRGDTAHVTVYFTVTFHHSHSTHTFSVTEHHTFERENGDWKLKETRTRMHHT 1270 DDQEAIKEWLKQFYEALDKGDMDALRELLHPDVQFHNQNGEQYDLDEFLKMVEEQNRNSNSKHDIINSIEVRINGDTITVHVTVQVHFHHSNRTQTTNFHETHHFEKKDGDFKLLRTETHSEQT 1271 AGEEAVRETVRRFYEAWQNRDMDKLRELLDEDWKYHNTATQTTYDAEEWLEWVKQFASFNFRVHIHSMEVRQDGDHYTVTVHVTFTDDHTGRTVKVTDHHHFRRGDGRLKVVETRTHYHTS 1272 SDQEEIRQWLRRFFEAMNNNDIDALVELFSPDWRFTHSSGTTDNSLEAFRKWVEEFMRRFDDVKIEVKEIEINGDTVHVHVQIHTTHGDKTQTFRVTETHHFRNGKLTETRVHVYDSG 1273 ASEKQIRDAVREFYRAFNENDLDALMELIHPHAEVTFSAEGRTFTNREEYEEWFRRYMSRFDAKVEIKDMHVQDDGTVTVHVTITFTHNGQEFHVDVTDHYHFQDGKLTRVHSQFDQQ 1274 TSEEEIREILKRYYESFNKKDVDKAASLLAPDWTQHNAAHQRTFTTRDEFREYFEKFAKRFDAHVEIKSIRIWSDGTATVHVTMTFTHNGQEYHVDVTEHHHFKDGKIKETRVNFDQR 1275 TSEEEIKELLRRFYEAFDKGDWEKLHELLHPDWRLHVAEEQQTWTTREEFIEWVKEFFKRFNTAHRLEEIRVHDDGTVTVHVQMHRTHNGQTQTFDITEHHTFRNGKMVETRVSFQPT 1276 TSREEIKQLVERFYEAFDRGDWKALAELLHPDWQMHIGRLNITLHDLEELIEFAKKFLANFDIQRHIESIHISDDGTVTVHVTVHMTHNGETRTFRTTDTHRFKDGKITETHADFDQT 1277 DQEEEIKEWVKRFVEAFNRGDLDALAELFHDDWTFHHSNGQTFNSKEEFKKWVEELLSFDTKIETKSIEIRGDTAHVHVTMTTNHPGQQRHVQVTETHHFSDGKVTETRVHFGDTQTT 1278 PSEEEIKEWLRRFFESLDNKDDEFAELLDDNWQYHDSSGNTGRDAKEMIEWLKKWFSQFDTAHHIDRIEIDKSRQTVTVHVTVHQTHKNGQTYTVHVTEHHHFRGKKLTETRVHRNQD 1279 ASEEQIRQWVKRFVELMNNNDVDALMSIFHPDWTMHVQQWNGQQYDFTTREQLKEWFKRLASLPFRIEIKSLEIRGNTVEVHITIHVNHKSGQTHTHDVTETHHFKDGKLTETHQRWDQK 1280 MSSEAIEELKRRYIQTAFNTGDADKFKSFFSDDSTMHVYRGITYTTLDEIKEWFERMVKEMQDYHVEIKSIEIRGDTVTVHLTTTVHRGDQTYQMTVTVHDVYKNGRLAHSEFRVDNKE 1281 SSEENKEFVKRLIEIFFNTRDVKQFLDIVDEDWTFHDSDGSTLTTREEVKKWLEDFLEHFKDAKVKIDEIRAEGDTVTVHMTMHVRHGDQTHTYHITEHHRFEGKKVTETRVRTHPTS 1282 ASEEEIRDWARRFYEALNNRDRETLHKLFSPDVQMHLADGRTFNSQDEITEWFNQWLEKAKDFRIEIEEIRVHGDTVTIHYTVEFHHKDSTVTIHFRDTFHFKNGKLTEVRSTWDERQQ 1283 PSEEELKEFLKEFYERLWNTGDWRAMSEYMHDDVTVHYYRSSGETYTATTIEQVVKYFQEFASRFPDVKVTIDSIEVHGNHVTVHITIHATTDNQDFQFHVTHHWRFRNGKIVEVQAHWNQKE 1284 MSEEEIREWLKRFYEAFNKRDLDKLLELVHPGARFHFSAHGETITDLEEFRKWFKRLLEELQDFRIQIDEIRVDGDTVTVHVTVHVTHEDGRTQTVHVTEHHHFVKDGKLVETRFHFNGS 1285 PSQEQIEELVRRFFEAINHKDVDKIRELLDDDVRVHFSESNTTFTTKEEVIRWLEEFAKRFKDIRFEIKEIRVHGNTVTVHWTAHFTRDDGRTFTIHATTHFVFKKDGRIVEIRFHLNTG 1286 ASQEEIKQWIERFFEAFNRRDVDKLISLLAPGWTFHNASNNQTWTNPEEFKEWVERWLKKAKRFRFQIDSIEIRGDTATVHVTVHVTRDDGRDFTYHITEHHHFNKDGKITETRQHINGG 1287 PDEEIKRWVKEFIEAFQHKDLDALVSMLTPGWTYHDTDGTTYNDPEEFREWVERFMSNADFRVEVHEIRIDKRSQTVTIHLTMHVTHPGSHHTYTATEHHHFRDGRLVSTKEDRDENR 1288 DQREEIKTWLDRFYESINQKDLDAIKRLYHPDATMHITKEQRTFTTQDEIKEWFERIFRTYPNMRVEIKSIEIRGDTVTVHVTITFTGDGKTFQVTDHYRFKDGKLIEQHSHFNDT 1289 PEEEELKELAQRFIETVARAMNNGDADAIISLFDDDSTVHFSSEGRTFNSKEEIKEWFEKFASRFEIHIEIKRIEVHDGRVTVHWQLHYTHNGQPYTTNVTTHFVFKDGRFKHFRFQADHS 1290 SSISEEQIREWLKRFYEAIDKRDRDTFRELIHDDAEFTVDGRTFTNADEFVEQFLRQWISNAQRTQRHIESIEIDDSTVHVHYTIHVTNGHERYQIHVTDTFHFRDGRLVRVQSHRDTKKT 1291 PISEEQIKEWVKRWVEAFNKGDMDKLMSLYSEGSRFHDSRTGKTYDREEIERLIRQHLSQGIKVQLDSLEIRGDTVTVHVTFHQDQTGRTFHVTRHLQFKDGKLTEDRATWNET 1292 TSEEQIKQLVERLIEALNRRDIDAFLSLVHPDWTDHQYHKNRSETYDKEEYKELLERMLSKAKDVKFEIKSIHIDGDTVTVHVEFHHTTTENGSEKHRTFRVTEHHRFRNGRLVETHSRFHDE 1293 ASEEEIKDWLKKWYEAFNNKDLEKLAKMIHPDATFHLTQGNQTRTYDYEEMIEWIERFLKHFKRFHLEIKSIEIRGDTATVHVQLHLHEDKNGSTETHTFRVTHHWVFNNGKVTEVRAQEDPI 1294 ASEEEAKEWVRRFIEAINRRDLDAIASLYADDVQFHFYHGDRTETYSKEEFREWFETMLRRWQEIHVEIKEIRIDGDTVTVHVQFHFTRTKDGSNETRTYRVTSHIHMRNGRVKEEHIHFHNT 1295 PMSEEEIKDVKRRLIEALNNRDADKFASLFHPDATLHFSKGETLTTREEIKEWVERFLKQFPTATFQVDSIHIDQSTGRVEVHVTVTVHHDHKTVHIHVTFHDRYDPNGRLKETRANYDEGQ 1296 PISREEIKEVIRRLVEAFNRKDVDELVELYAPDATVHFYQGETLNNLESIKEWLKQFFRTFKDVKVQIDSIHIDQSTHRVTVHITMHFHHDDRTKTVKVTRHFQFNSDGKLVEDRIHEDHGD 1297 LSEEQEKAARELARRYVEAFNKDMDELERLYTDDSQMHVSEGITFDTKDEIKDWLTKLAKNARLEIKDMHVEYNPDGTVTVHVTVTVHHPNGTVTVHSTLHFEQRNGQFYLKREHIRWDSN 1298 DAEEEIKEFLKRFYESLDNGDLEALARLIHDDAEMHVDGGRTFKTKDEIKKWFEEWLKKAKDSKHDIEEIRVDGDTATVHVTVHVNHKDGTVTIHVTEHHEFRNGKLVRTQAHEDPQPT 1299 TSEEEIREAVQRYYEAWNHKDMDKLLSLIHDDWQNDTYNLTTKEEYKEFVKKFISRFPDFRIEIEEIRVSDGTVTVHVTFHFNHKDRTQTIRTTDHHHFKDGKITRTRQHRNN 1300 TSEEEIKQWLERYYEAWNKKDLETLASLFHPDARIHSLGITTKEEFKEWVKRFFEQFKDVTVEIEEIRFSDGTVTVHYTVHQTTKDETRTTRYTDHYHFKDGRLTELRSQTDN 1301 PSEEEIRDWFRRYFEAVNNGDIDALKSLYHPGATVHFSGGRTFKTQDEIREWYERFMRNFNAKIEFEVHVHDNGTATVHFTMHVTHPDGKNQTIDITVHVRFKDGKVTEVRFHEDQS 1302 PSKESIKDWKRRYLEAIFRSGDADVAKSLVDDDATFHIAETQRTYDADEYREMWRQLMEKIQRVHVKIDRIEIDGDTVTVHVQIHVHHGDQTVTIDVTYHDKYRNGKLTSSQSHNDQKD 1303 PQQEEIKEVLKRFYESFNRKDLDAIKRILHPDATIHLTHNTTTHTYDLDQYIEWVKRMLENVKRMKIDIHSIHVEGDRATVEYTVHQTHGDKDITMEAHDHVEMRNGKIVEMRSHIDERPT 1304 DMEEQAKDTIRRLIEAFNHGDLEALKELYDDDATIHINKGDQTYTFSKEEFIEWVEEFLRRAQRARIQLDDLHIDGDTVTVHMTLHVTHGDKDRTIRITSHFRLKDGKIVEEHMHVDDTPQ 1305 PDEEEIRRWVEEFYEAFNRRDVEALASYLDDDWTYHIQNGSQPQTYSKDDFKRWVEEFMRRAKDFHLEFKDLHIDGKTVHVHGTLTTRHGDQTFHMHTTDTHHFKDGKVKETRATYDEQPT 1306 PDQEEIKEWLRQFYEALDKGDWEKVKRLLHPDATVHLTHGDQTETYSADEFIEWYKEWKKSASQVHREIHEIRIDGDTATVHYTVHVRFGDKTQTIHATDHFVFKDGKVTELRSHVDERPT 1307 PSEEEIREWLRRFFEAINKKDLDAIASLFHDDATMHIYRGRTFTTKEEIKEWFERWLRTFKDIQIQIESIEINGDTVTVHWTAHVRDDEPRTITIRATTHVHFKDGKVTEMHIHLNQDDNNG 1308 GGEEEFKEQIKQFFERYVEATLKGDLDTVKSLFHEDWQYHDNSNQITFNNREEFVKWVEEWQSNVSSTQFEIKSIEVRGDTVTVHVEVHFESNNQTFRVTEHHTFDKDGKLVSTEQTWHQHS 1309 GGEEELREWVRQFFERLAEAINKGDTDAIRELYTPDSRYHNAATGRTATTLDEIVRFFQQMIKNLPQTTIEIKRLEVRGNTVHVHVEVHHSSTNRTFRVTSTFHFDHDGKLKEEEVHWHEHS 1310 ASEEEIRQVVRRFFEAFNKKDIDTLVDLFHPGATIHFSKGRTFTTREEIREWFERVFRTFPDAQIEVKSIHVDGDTVTVHWEMHVHHNGKTVTVRATTTFHFKDGKLTEMHVQIHEHD 1311 MSEEQIRQWLRRFYEALDKKDVDKVVSLFHPGATVHFSKGITFTDLEEIREWFEKWLKTYKDTAHHLESIHIDGDTVTVHYTVTFTTDGKQVHVRVTDHFHFKDGKLTRMESHEDERD 1312 MSEEQIREVIRQFYEALNKGDLDAVMSYYDDGATMHVYRGITFNDKEEIKRWFEEFLKEFKDIQFHIESIHIHGDTVTVHVTVHMHRNGKTVTIRITQHFVFRNGKIVEDHIHVNEHD 1313 LDQETAKELVRRFFKALNDGDLDALKELLHDDWTMHYNNQTFNSLDEFKEWVREWAQGWDVEIKSIEVHENPDGTVTVHVHLTTHNKKTGQTYHQTETHHFNKDGKIVETRAHMQD 1314 SDQEEAKEIKKELIRALNEGDMDAFKELVHPDAQMHVDNQTFNSLEEIVEWFAQFISGTGIEVERIEVQENPDGTITVTVHFTFTDSRTGQTYRATSHDRYSQDGKIVETHFHRQS 1315 PDEEQQEQIKEWVERWVRLFNTDVDKAASLYDKDSQVHINGQTFNDREEIIKWMRELKQTHIQVKSIEIRLHPDGTITVHVHLEVHYDHQTFRVTTTLHFRKEGDRWKLTHHHTTIDQVR 1316 TDESEQREIVRQLIRRFYEALNKNWEEAAELFHEGVTMHADGRTFTTADEITEYIKQLFDQDIKIEIKSIEIRFHDDGSVTVTVHVELHNKDGTVSATHHWFFEQRNGQFRLVEMREHRQPQ 1317 SDEEEIEEDARQVVRRMAEAFNTDMDELKRLYHPGATVHIDGQTFTNLEEIKDWATKLYSNDVKVQIDSIEVQVNPDGSVTVHVHFTVHTKDGTYKVTSTLFIELHNGKWYIVEERVRTQPT 1318 TSEEEIKEAIKELVERFFEAFNKDWREAASLMHPGSTMHVDGQTFTTKDEITEWIRQLFSNDIKIEIKSIEIQINPDGSVTAHVHWTAHNSTGTVDATTTFFFTQHNGSFRLVEVRFRNQPT 1319 TSEEEQREIIKEIVRREAEAFNNDRDAWYSLFHPDARFHYDNQTYDLDEVKEMLERAKDQKIQIDSMEVQVNDDGTATVEVHWTATRQGQTYHFTSTLRIEVGEGGWRIVEKHIHTIQS 1320 PSEEQKEAIKELVHRFVEAVDKDPDAAFEFVHDDWTFHTDNQTFTDREEFREWVARLPEFRREIKSIEIRLNPDGTITVHVHVEVHYPGSTIKGTETHRFRQEGDEWKIVETHAHFQPT 1321 SSEKEAEEEIKDFKQKLIEALNDGDMDKFESLLDKDQSQYHYNGQTFHTMEEIKEWFTQWLPGWKMQLDDLEVEIKPGGEATVHSTVTMHGPGKTITIHTTDRYRYEGDSWKLVETRTHTDEGE 1322 TSRKEFEEEIRKLVKRFFEAFNKNDLDKLAELLDKDHATVHYNGRTFTTKDEIIDWFRNYAPGWNIEIKDLEVELKPGGEATVHVTWHATTNGQTYTGRTTIHVRKEGDTVKIIEVRIHIDPGS 1323 PHPETESQVRDWIRRWVEIFNRGDSFDNLYDDDAQVHFNNRTFNDKEEIEEWFERLLKTFPSHIQIESLEIRQGDGEVTVHVTFTVTHENTNRDIRFHATFHFQKDDSSLRLVEQRVHTEG 1324 THPSVEEAIRDIKRRMLEAMDNGDSVDNLFHPDAQMHVEDQTFHNKEEIEEWVKRMLESTSMHHQITGMEVRQGDGEVEVQVHVRVTTPETGTTYSFTFHDRYRREDDSWKLLETQIHTDG 1325 PKPEDEKAARDLVRAMYEAFNRRDSMDGLMHDDAQMTVNTQDFHSKESVEEWFRRVARTFDSTVQIDSMEVHIGDGEVTVHVHVTVTRNETNRDFHFTHTWFIRRDDDSWRIVRVEFHRTD 1326 PEDEEAAKETAKRYYTAMNTDIDAVRELFHPDFTMHIYNGQQFDTLEEVVEFLKQFIENTTIEIKSIEVRTNPDGTVTVTVHVTVHRKDGTIHVTHHWFIEKRDSRWQIVHLEERRQE 1327 PSEEQIREMLRQFFRAINEGDLDTIKSLFDDDATVHFARFSVTVHTKDEIKKFFEEMQKRFDMKIEVKEIRIDGDTVTVHWEVHVTHNGQPYTFSATTTFFFVLKNGQLYISRMEIHINPT 1328 PSEEQIKEMLRRFFEAINRKDLDAIAELIHPDATVHFASHNVTFKDLEEIKEYFEEMMRKFDFHIEVKEIEIRGDTVTVHWEVHTTHNGQQYTYSVTTHFFFRLQDGQLYITEVRVHMNPT 1329 MGEEAVRDWIRRFYEAFNTDIDKLSQMYAPDAQFHVNGGQQFTTLEEITKWFRELASTTRIQIHHIEVHPNDDGTYTATVHATMHQDHRTVKVTQHFHFQVRGDDLQLIRDEVHFQPT 1330 PEDEEQIRRFKERVIRAIQTDWEAVRELFHDDSTFELKKTQREYDLDEFTEWVRKWAENASVQLDSMEIHKHDDGTYTVHVTLTTHTRTKTFTIHATDFYRKIGNQWYIIRTTFDFTDD 1331 PPPEDEKVLRDLVRQFVESMNKGGDRAKELYDDDATMHVDGQTFKTREEIAQWFKEWASTWEIHIREIRIQSNKDTGTYTVEVHVEVRTKDTTVNVTSTFFFQKHPNGQWRLKSEHIHRNQHD 1332 SEREEQQKQIEEFLRRYYELLDRGDLEAIYELFHPDVRFTDARTGQTFDLDEYKEMLEEFMRRFRHSRHQIDSLRIEQKSETHATVHVTVTVQLEGNSHTQQFHDTYFFEFRGDQMYIVEVRSQTDDT 1333 SEEEEAREQIKEWFRRYVEAFNKNDVDALASLYTPDARFQDSRTGRTFDKEEIREWYREILERFPDLQLQVESMRIQVDDETHLTAEVHVTIHLPGNETTVHVTYHVRFERRGDQVYITSMHARFHST 1334 SENEEMERQIREFLKRYYEAWNKKDLDKIYELMHPDVTFVDARTGKEFNLEEFREMVERILKTFPELRFEIDSIRFQFDSKTSVTVEVHVTVHHSGNKKTVRVTHHWFFRFEGDELKVTELRERTHDT 1335 SEEKELRERAREFLERFYTALQNKDLDAIAEMMSPDVTFQDSRTGKEYNKEQIREMIERWLRTFEDAQVEIKHMEAEIKDKNHITVRVTVQFTTKGNKQTYQFHHEWHFELRGDRLFVVRVQVHIHST 1336 DLDPEQEKAVREFVKRFYELLNNGDADAVASLLHPDARFHHSSGRTFDREEFKEMVKELKKQGWEVQIESIEIRVESSTTVTVTVHVTVHNQSTGRTFHVTNHDRLVFEGDEVKLVEHRSHMEERST 1337 DVDPTQQEAVKQLVERFFEAVNKGDLDALRELIHPDARFHHSSGQTYNLDEFLEMVEELFKQGWHIHIHSIEIRVVDKDTITVHVHWTAHNDSTGRQFDATTTFFVTQYGDEWKIVEVRIHIDTKTN 1338 DADPEQEKQVKEIIERFFEAFNKGDADAVASLLHPDWTYHHSNGQTYDKEEFKEMVKELFKAGAEIRVHKIDFEVKDKDEIEVTVHYQMHNKSTGRTFDVTEHHRFVLTGDKWQIVETRVHIDEKTN 1339 PDEMEEAVRKTDRKRLEAFNNRDADKFMEVVHPDATFYENGQPQQLSRDEIREWFEQWAKRAKDVHIQLHELHIQIGDDHHATATGHITFTFPGTNRHVQVTYTVHYQFQDGRLFLTEMREHRDSKQS 1340 DDEQKEKIEEWIRRFYEALNNNDVDAVASLYTPGVKFYHNGQPRDIDRDEFREWVKEMLERLKDVKIEIKSIEIRVGDDTEITVTVHVQMHQPGTGITVDITQHFRFRFEDGRLRILEDREHSDSKQK 1341 DDEMKEKAEEWKRRFVEAWNKNDLDAFDELFHDGAKIVVDGQEFPLSKEEIKEFIERLIRSAQDAQIHIKSLEIRIDDKDEATVHVHLEMHIRGTNQTVHITQTDRYRFEDGRIKLLESRSHRDHRNS 1342 DDEAKEEAEKLVRRYYEAFNNNDWKAIKELLHPGATMHSDGQTYPRDQDELVEFWRRTVESLKDVHVQIDSIEIRVGDKDEVHVTVHVTFTQPGTNEHTHVTHHWRFVNTDGRWFIVSVREHRDERKS 1343 PDEMQEAAKEADRRRIEAFNKGDLDKIASLIHPGATFYHNGQQFDIDRDEFKDWVREMRRRFQDVQIQIHEIRAQVGDDTEVTVTVHVTFTIPGTNIHIDVTYTVRYRRKDGRWFIIEVREHSDSKNS 1344 DSEKEIQDTIKTIVKREIEAFNNGDVEAWASLYHPDATFTSGNRTENRSKDDIKRFVKQLLSQQWRVELESLEVRVDSKDTVTVHIHVTWKNERTGRTWKATQTIRLEKHNGQWYIVEKKSDRNQT 1345 DSEKQIQEAIRTIVKREIEALNNGDADTWASLFHPGATFTSGNETQNRDQEDLKEWVERFFSQDWRIKLDSLEVRVDTEDEVTVHVHITFTQDRTKRTYHATFTIFVRKKDGEWKIVRKKSDRRQT 1346 PSEEDERQLREVVRRYYEAINKGDMDTLRELLHPHATFVHDDQQFDISRDEYVEWVEKFVKNNDLKFDIDSIEVRKIDDTNFTVTVHVTVTERRTGRTYHVTDHYFFRRTEDGRWFIVRVESHTNQNN 1347 PSKEDEEAIREIVRRLVEALNHGDMETLKELYDEHATIHHDDQTYPLSRDEIAEWIEKWLRNNDTRIHIKSIEIRVRSDKDYTVHVHVQVTNNKTGRTVKVTSTIHLKKRDDGRWYIQEEREHRNPET 1348 PSPEDEKAIREVMKRFYDAINRNDWDELAKLFHPDARFHHDNQTFDLSRDEYTEWWRKQFESFDLEVRVESIEVRKISEKEFTVHVHVTVTDRSTGRTYRVDETHFLRKDDSGQWRIVETRSHRHQEN 1349 NPYEEEARDLKRKYVEALNKNPDEFIKLVHPDATFHIEANNTTYKSLEEIRDYVEKQVKNSHVQVHSVRVEVKPNGEVTVEVHATVHHKDGTVDVTQHDRYRMQDGQLYLVETHERMQPR 1350 MGEENLKEEVKKVLKQMYEAFNKGDWEALLRIMHPDATFHHSNGQTYNSLEEFREMVEELQKHDTQIEIKEIRIQIDSDHTVTVTVHATDTTRSDPTTVTVTHHWFMRFEGDTVKILEVREQFDRS 1351 MGEEEAKRQIRETIKRFYDAFNNGDWEKLLRLLHPDATFHHSNGQTYNTKDEFRKWVEELLKNNVQIEIHSIEIQMHDETNYTVRVHATMKNSKDSRTIHVTHHWHFRFHGDQLRIVRVQVQFDQD 1352 KGDEEVEKQIREIKRRLVEAFNKGDWEALARIFHDDFTFHDSNGQTITSKEEFREWFERWQSTNQQIEVKEIRIETKSKDEYTVEVHFKVTNSRSSTTVDVTAHDHYRVIGDNVYIIRSQVHFHQS 1353 MGEEQLKEQIKEWKKRYIEAFNNKDWEKLLRLLHPDVTFHYSNGQTFNSLDEFREFFERLAKNDAQIEVHSIEIQVHDETEVTVHVRVTDRTGTDPTEVEVRSTDRYTFHGDELKLTETTAQFDQS 1354 AGEEQIKEQVKEVLRQFYEAFNNKDVDKLLELLHPDFQYHIWNGQTLNSLEEFREYFEELAKNDVQLEIHEIRIEVKDETRVTVTVHVTDHTGQDPTTYHVTEHHFMVREGDQMYIAETRVQVDQT 1355 PDEERIKEWLKRFYELFDRGDLDALASLLHPDWTFHHSSGTTLTTREEFKEWVKQFLERFENTAHQIDQIDIDGNTVTVHVTVHFHTDGRTVTIHVTDHHRFDKDGKLTETRSHFNQTD 1356 PDEEEIKEILERFYEAFDRGDMDALFELLHPDATMHISNGETFHSAEEIKEWFERVLKTFGDVRHEIERIEFDGDTVTVHYTTHWHTKDSTTTVRATDHFVFDKDKKIKEVRSHWNPTG 1357 PSEEEIREIDKQRLDAFDNGDLDALMSYFHPGATFHDSSGQTYHTLEEIKRWFKEFLDKFDVKRTEVRIHVDGHGTVTVHVTAHGTHNGKKIQFHYTYTVHYRNGKITEIHVHIDTQD 1358 DSEEEIKEIIRRLIEAFDRGDLDALAELYDDGATYHDASGYTATDREDIKEFFKQFLEKFHEQFHHTEIRIHIDPNGETVTVHVTVQVHTKDQTYTYRVTSTVHVKDGKVVEERVHINQEN 1359 PFEEEVKDLKTKFLEAINRGDVDALVELLTDDSTVHFTMYQITITSKEEFRKWFERFWKTYNAHFDISDVKIQIHGNEEATVHFTVHFRHGDRDITVTVTVHDRYVNGRFKRTRIHFNPHE 1360 PTEERIKELLKRFYEALNKKDLDEIASLFHDDVRMHNQSNNITYNSKEEIREFIERLLSADFKIEIKEIRIDRDRQRVTVHVTMHRNHNGQTYTFDVTHHWQFKDGRIVEVRHHTRQRT 1361 PDQEQIKEWLKRYVEAWNKGDLDALVELFHPGWTMHLSNGQTFHTLEEFREWVKELLDKFQDTQVEIDSIHIDQSKGRVTVHVTYHHNHPGQTRTAHVTEHHQFEGDRLVETHFHVDQKG 1362 PEKEIEERIREWIKRWYKSWNDRDVDKIISLLHPGWTYHHSSGQTFTTLEQFREWVERLMKNADFRIEIKKIDISGGTVTVHVQMHWTHGDKTTTIDVTEHHHFRNGRLTETRAHYTSSPKD 1363 PEEEEKQKIKEWLKQFYDALNNKDADAIKELVHPGATMHIADGITFTSRDEVKEYVKRIADNADIRLEIKEMHIQDGHVTVHVEVHEHHGDTTYTVRVTHHWRFKDGKLTEVREQTDRQPHS 1364 PEPEEQEKIKEWVKRYVEALNNKDVDALASLYDDGATVHFANGTTFTTREQVREWYERMAKNSDMRVNLESLEVRNGHVTVHVTVTFHHGDKTTHIRITVHFRFENGRLKEVRFHWDSQPQS 1365 PGEERIRELAKRFYTAINNNDLDTIARLLTPDVEVTFASEQRTFHNLEEVKEWFQRFIESNPRFRMQIEEIRVDGDTVTVRYTVHVNDKRTDSTYTTHAQDHFHVKDGKITRVTSNRDTHQT 1366 PGEETIREWVKRYIEAWNKKDLKTLLDLVTDDWTLHLGSYQITFTTREEYKEWVERWMKTFPDFRIEIKSIEIRGDTVTVHVQIHGTNKDEPKTFTWDVTEHHHFKDGRITETHMDFDQKET 1367 PGEEEIRKWVKRFVEAFNKRDADTLFELVTEDWTYHAAGQQITFTNAEEFKKWVEELLRTLSDFQMDITSIEVRGDTVTVHVTVHMRDDRTPKTVTTHITEHHHFRNGKITETRATWDTKDT 1368 PSQEEIEEIDRQRIEAFNRRDADAVASYFAPGAEIHLSNGQTFTDLEEFKEWVERFLRRFKDIHIHIHEIHVNKDTVTVHMTVHFTHDNGQTYTMTVTYTIRYDKDGRITRMQVHVDEKR 1369 PSEEQIKEWLRQWFEAFNNNDWETLASLYDDGATMTHYRGETFKDKEEIIEYIKRFLESMKRMRMEVKEIRFNDNTVTINVEVHVTHETGQDVTVHIQFHFRFDKDGKLVEQHTRTDQQN 1370 PDESQIREWLRRFFEALDNRDLEELMRLFDDDWTMHIYNGQTFTDRDEVKKWFKEILDRMKDFRHQIESIHFTEETVTINVTVTVNHDNGQTFHIRVQEHHRFDKDGRLKETQFREDQQD 1371 PPELEEQIKEFVRRFIEALNRNDLDAVAEILHDGWTMHINNQTFTTKEEVRKWVEEFLKKNKDLRIQIDSLEIRGNTVTVHVTVHFTHNGRTYDVSVTEHHRFKDGKLVETHVQRDQIH 1372 MSEEEIRDWLQKFFEAIQNKDLDTFKRLITEGVTFHFSAEQKTFHDPEEVVEWFERWMRTFPDHRVEIHSIEIRGDTVTVHWTMHVTHNGQTYTIDVTTTFHFRDKKLVEVRFHFNERR 1373 MSREQIERFVRKLVEAFNRKDRDAFEEVYSEGSTLTSDSTQQTFHNKDEIVEYFKRLADAFERFRVEIKEIRIHGDTVHVHLTFHFTHNGKDVTFDVTSTFHFRGNRLVEEKITVHERR 1374 PTEERIRELLKRFYEAWNKKDLDKLVSLFHPGATIHSSEGITLTTQEELREYIERVMRRWKDTRIEIEEIRIDGDTATVHVTTHFHTNSQTKTVTATHHWVFQDNFVVELEERSNEH 1375 PDQEDITEWLKRFFEAWNKKDLDTLVELFADGSTYHHADGITVTTKEEYKEFLRERFERAKDTQIEVKSIEIHGKTVTVHWTMHLTSNSQRHTVDVTTHFVFRGKRVTELRQHFNQK 1376 DLREEIERFVRRLFEAINKKDLDALKEIFHPGWTFHLSQGTTFTTLDEFREWVREVQERFKDTQIQIHEIRIDGYTVTIHVTVHFHSNSQTKEVTVTEHHHFKDHKLTETHQHHNEK 1377 ASEEEIKQWVERWAEAFNKKDLDELARLFHPDSQYHDQNGETLTTKEEYREWYERLMRSLKNFHIEVKSVEIHGDTATVHWQMTTHRPDGQQYHYTATTHFQFKDGRLTEVRQHTDGT 1378 SSKDEIKEAVERFYDAFNKGDVDLLASLVHPGATFHDSSGETLHSKEEFREWVKRFLDEMEDTKFEIKSIEIRGQTVTVHFRLTVTHSNGETRDGTYTDHYHFKDGKLVEIRSHEHGE 1379 PSEEEIKEFANRFYEAINQGDLDAIMRLFHPGATFTVNEGTTYHSKEEIRKWFKEFFERVKQIHIQIHSIEIRGDTATVHGTVTVHHEDGRQQDFTVTHHWHFKDGKLVRVEERRHGS 1380 PSKDEIKEWLERFYEAIDKNDWEALERIIWDGWTFTDSSGQTWTTRDEFREWFETMVERFKDMRHQIDSIEIRGDTVTVHVTATFHHESGETRTQHVTDTHHFKDGRITRTRSHRHSS 1381 PSKDEIKEWLERFYEAFNQKDLDALDSLVDDGWTFTHSSGETLTTREEFRKWVEQFLREVQDIHIQIESIEIRGDTVTVHVTVTVHHKDGRQQHMRVTETHHFKDGRITETRQHIHGS 1382 PSEEEIKDIKRRFAEALDNNDVDTAASLFHDDATVHFSKGETLTTKDEIREWIERWASRFKDTAHEIKEIRIDGDTVTVHVEVHFHHKDETKTVRVTVHDKYKDGKITRSQFNYDEGG 1383 PSEEEIRDFIRRLVELLDSGDADAVASLYDDDSRVHFSEGETLTSREEIKEWVERYFKSLGNVHREIKRIEFDGDTVTVHVTVHIHHNGKTVTVHVTRTFHFKDGKLKEDHVHIDNGG 1384 SDEEEVKEIKRRLVEAMDKGDWETLARLFHDDAQFHFEATGTTFHDKEEFIRWFQQFVSNAEIHRQVHIHFDGDTVTVHLHVTVTHGDQTHHVTATVHDRYKDGRLTESRFTFDPRE 1385 SVSEEELREWLKRFYEAFQKGDIDALKELIHDDWTYHDSSQGITFTTKDEFREWIKELFEKFDFQIDSMEIHVHGNTVTVHVTVTVHTKDKTKTIHVTDTHRFKDGKLTETHSHVDEKET 1386 SISEEEVKEFIRRFLEAFEKGDLDALAELFTDDWTVHFEYSGITFHTLEEFKKWVKEVLEKWEYRVDSMKIDVHGDHVTVHVQVTRHHPGETQEFTYTEHHRFKDGKITETRFRRHQHDT 1387 QISEEEVKEWVRRFAEAFQRGDVDALISLYTDDATIHFESEGRTFTTKEELKEWLTQLFRRAEFHVDSIEIHVDGNTATVHVTITATQPGRTYTYHVTSHFRFKDGKLKSERVTIETRGS 1388 QISEEEAKEVVRHLIEAFQNGDMDALMSIYTDDATFHMASEGRTYKNKEEIKDWFRRLRESADYQFDEVEIHVDGNTVTVHMTVTVHHKDKTVQQHYTSHFRFENGKLKEEHVHVDTRET 1389 SISEEEIREFLKRFFEAFQRGDMDALKRLMHDDATVHFSSEGRTYHTLDEIKDWFRRVWESAEYHFDEIEIHVHGDTVTVHVHVTVHHPGETDHITYTVHDHYKDGKLTRRQVHIERRRT 1390 PISEEEVKEWIKRYAEAFQNKDLDAIMSLYTDDATVHFASTGTTFETKEEIRDFYRKVLENADYQFDEIEIHIHGSRVTVHVHVTVHHPGKTVKITITMHFQFKDGKLKEVQIHVETKQT 1391 PEQQEKIKEFLKRFYEAFERGDLDAMFEMLHDDWRFHYEYENITFHNREEFKEWAERFMKRFEFQVHMTIHVDTDNTVTVHVTVHTTSPDGQPYTFHTTDHHRFRGDRLIETRVHVRQET 1392 PEDREKIKEIVKREVEAFQRRDLDTWAELVHDDARITFQYENRTFTNKEEYKEWLRRFMETWEFRVEVTIHITSSHTVHVHLTFHVRHPSGQDHTFHVTVTIHFRGDKITEKHFQWHQED 1393 PEDRERIKEWLERFFRAFANGDLDALKELLTPDWQFHYEPQNITAHTLEEFKEWVERFIKQFDMRVEIHIHVSDSDRVTVHVTLHVTHPTGQPQTYHITEHHRFKDDKITETRVHVDQQE 1394 PEQREKAKQTLERFFEAFQRGDMEKLERLLHDDWTFHWEQQNITFTTKEEYKEWVRQLLSHFDVQFEIEIHISDSNTATVHVTIHWTHRSGQKRTIHVTEHHHLRGDKITETRAHIEQKE 1395 MSEEELREWLRRFYEALDRGDADALASLYDEGVTIHISEENRTFKNKDEFREWFRHWFSNTDTAHEVHIEIKDDTTVTVHVHVTLHHKDGKTVHITVTQHFHFRGKKITEDRAHIDTKET 1396 TSEEQIREFLKRAYEALNRKDLDAFAELFTPGWRYYHAEENRTFTDKSEVREWIRQYLEKTDAKIEVHIHVDDDTRVTVRVTVHFTTKDGKKQTVHTRDHHHFEGDRITETRAHYDTKDT 1397 AHEEKIREWLKRYIEAVNRKDLDAVISLFHEGWQMHHANGITFHTRDEVRKWFEEFLRRFPRVRVEIKSIEVTTDTVTIHVTVTVHHDGQTIHIDVTEHHTFKGDRITETRIHIDEKPT 1398 PDEEEIKRILKAFYDAIDNGDMEKIKELMHPDAQLHNSSQGITWHDLEEIAEWFARFASLRNTAHEIKRIEFDQDHVTVHYTTTVNKNDQTYHFNVTDHFRFKDGKITEVRSHIQGE 1399 PSEEEIKEIKKRLLRSVDDNPNDMDWFKKVFDKDHVTMHSDNTTMTTADEIVEWFQRQFATNNSKRELKSLEIRGDTVTVHVEVHETRTGRTFTVTYHDQYKDGKIVSTTAHRDST 1400 SSEEEIRQWLKRFYEAFDRGDADALKEIVHDGWTLRSYNITDKEEFKEWVERWFSQFPQMHRQLDRLEVEGGTVTAHFTVHFTHNGRTFTMHTTDHHHFKDGKLTSTQQHTDEQPT 1401 PSEEEIKEIDKRRLEALDRGDMETFKELVHPHAQMHVSEGKTFDTRDEIAEWFERFWKSFKDMRRHIEEIRVENGTVEVHVTVHFTHDNKTTTVHITYHVRYDKDGKILSMQFHRNQTSD 1402 PSEEIARQIKRRFIEALDRGDADAIAELFHPGATFHDSSGRTFTTKEEIKEFVERWQSQFQDSRHQIDNVHFDKDHVTWHVTQHFTHNGQTFTVHVTVHDRYKDNRLVETHFHHNHS 1403 SSKEEIKEWLKRFYELINRHDLDKIAEFLDEGWTMHIESEQYTATNKEQVRKWFEEFMKKVERIRIEIEEIRIDDNTVTVHVTMHVTHNGQTQTYHVTEHHHFKDGKITETRQRVHTG 1404 MSEEQIKEWLRRMYEAIDNNDLEALMRLFHDGWTMHIESQQVTFKDKSEVKDWFRRYLESVKDTAHQIDSIHISDDTVEVHVTTHENHNGQTYTYRVTETHHIKNGQFKETRQTVDTG 1405 MSEEEIKDWVRKWAEALDNNDLDTLASLYDDGATVHFQSEQRTFNNKEEIKEWVERWLKTVKDSQHDIDDLHIDKDTVHVHFTVHLTHNGQDHTYHVTSTFHFKDGRLKEERIQVHTG 1406 MSKEEIKEWIKRYFEAINRKDADKIVSLFHPGWTFTNESQQITFEDQSEFKEWVERWLKSVKDIHVEIDRIEIDKDTVTVHFTVHVTRNGQDHTFHATEHHHFRNGQLKETQLQIDTG 1407 DREEAEKAIEEWVRRFLTALNNKDLDKVLSLLDDDWTYHDSSGNTYTTREEVEEWVREFMSQNWQITYQDLHIQQHGTHTYTVTVHVQYHDKRTGRTFQVTEHHHIERQPDGSWRVVETRVHTDNE 1408 DELEEFKRRAFKAIIDTNDWDKMAKYYHEGATITVNNETRDLGREQLVEWFRRFLSRVGEMHWQIDRVEVDQDHVTVHLTVTFTHDGRRVTVRVTEHDRYKDGKLTSSNQHRDQDDS 1409 DELRELKKKFYEYIVNTRDLDAVKEYFHPGATITEGNRTETKDQDQIVEWFERWWSRVGQAHHEIKSIHVSDNHVTVHVEVHTTHNGKKITFRVTQHDRYENGKLVEMHVHVDQDDT 1410 PGDESKIKDIVRKMYEEAFNSNDWKAFEEAVTPDSTMTVQNGQTFTTLEEIVRWFQEFIKTFKDIRVEVDSIEVRGNTVTIHVTVHAHHDNRTITFHATHHWHIENDRFTEVHSRWNQKD 1411 SSEEEIRQLVKRFYESINNNDVDAAASLFHPDATMHISQTGQTFTTKEEIRKWFEEFLRSVSDIKVEIKSMEVRGQTVTVHVTITVNHGDRTVHMHATHHWTVKDGKITEMREHVDRQPD 1412 ASEEEIREIIRRLLEAMDKGDMDALRELYHPDARFEASETGQQFDTLDEIMEWFEKWHKSVGEVHREIKSLEIRGDTATVHVTVHTTHGDKTYTTDFTSHFRFKDGKITEEQLHVRTQPT 1413 PSEEEIEEILRRLYEAFDKGDWEKIASYMHPDAQMHISQTGTTFDTLEEIIEFVERFFKEAGDVKRQIHSIEIRGNTATVHSTVTHNRGDQTFHMRATHHWHFKDGRITSVKEDVDTQPS 1414 PSEEELKEWVKRHLERIFNSGDWNAAKAMFHPGVTVHVYNGQTFKNPEEIAEFIRRFIESFKDVRLEIERIEVEKDTVHVHWTAEFHTDTETVHIHGTTTFHFENGRLKEVHIHLRQTN 1415 PEFEEEVEEWVRRMFQAFFRTGDWRALEEAFHPDAKVTWARGEQTYDQEEFIRWFTKMMSRFTNAHFEIKEIRVDGNHVTIHWTVTFHSPTQTFTMHGTTHFRFKDGKLTHVRFEIHQDDGS 1416 PISEEQIKEIVKRFYDAWNNNDVDKLVSLFHPGATFHFWNGITATDLEEFKEYVERFLSNFNTQAQIHNMEIRGDTVHVTYTMHRTHNGKTVTLEATDTFHFKDGKIAEYKSDVDDKD 1417 PISEEEVKEFKKRFIEALNKNDLDELKELFHPGSTFHFADGETVTTLDEFKEWVERMFKNFNFEFHVKEIRVHGRHVTVHVEVHFTHNGQTFTIHVTVHDTYKDGKITHSQFDIDQTD 1418 PVSEEQIKEVLKRFYDAINNGDIDAIVELIHPGATLHFSKGITLTTLEEIRKFFERTQKRFNTKIEIHSIEIRGDTVTVHVTMHATHNGQPYTYRVTHHWRLQNGKVAEVHHQENDTS 1419 PEPEEIAEELVRTIEEAMNKGDVDKMLSLYAPDATVHFSNGQTLTTREEIKRWFEEFFSKFKDVQVEVKSVEVNGDTVTIHFTVHTNHENKTTTFHITSHFHFKDGKLKEERVHIDQEET 1420 PEAEQAVRDFVRTFLDAFNRGDVDAIASMYHPDATMHLSNGQTFTNLEEIKEWFRRWFSNAKDVHIELKSVEINGDKVTFHFEIHVNHEDRTVTFDVTSHVEFKDGKIVSEQIHTDQKQS 1421 PEDQERIEEILRRFYELFDRGDMDRAVDEAFDDGATMHLAEGQTFTTKDEIKEWFRRLWSTIKRLHRQIERIEIRGDTVTIHVTVTVHRDNEQIHMRATHHWTFKDGRITEVHSHTDQHN 1422 PKERQDRITEIDRQRAEAWNRKDLDAVMSYVHPDATFHFAETNTTYDREEFREWVERVLKTFPDMHVQIEEIEVRGEHVTVHSTVHVNTPTKTRTIRVTYTVRYKDNRLQEMHVHTDTEDQ 1423 PEEDERRIKDLKKKEVEAFQNKDLDKVMSLFHPDATFHFADRGETYDYEEFREWVERVLKTFKSIQVEIKEIRIHKDEATVHLQFHVHTDTKTHTVDVTVHDRYEGDKLTETQFHTDQKHS 1424 TSEEEIREIKRQYIERFDKTGDARVFEDMFHPDAQYHNDSEKRTFDTMEEIKRWFNESWSNHDSQRHIHEVHFENGTATWHVTVHRTDKSTGQNYTIEFTYHDEYKDGKIVRTQEHSRQT 1425 MSEEEIRDLDRRRIEAFNKNDVDKVASHYHDDATVHYNEGITITNKEQLKEFVRKFIESAKRVKLDIDGMEIRGDTVTAHGTMHVTHGNKDTTIHFTYTITYRDNRIQEEHVHRNQQD 1426 MSEEQIKEFIKRLLEALDRHDVDKFVSMFHPDAEVHFSSGITFTNREEFEEWVRRWMSQFKDSQHDVHSIEVRGDTATVHWTQHANHGDKTTTFHGTTHFVFRGNKLVSMHVHIDQQD 1427 PDRERIADFVRRMLEEFFKKRDVDAAMSYYDDDATLHIYQGKTFTTKDEIKEWLERFLKTYKDAHVEIKSIHVSDGTVTVHIELHLNHKDQTRTYTITSTFRFRNDRIVEERVHEHQQ 1428 PVSEEEEKRIRDILRRLIEAFNKGDLDALASLYHDDWTFHLSEGYTAHSKDEFKKWVEEWLKKAQQIHLEIKSIEIRGDTVTMHVRITVTHNGKQVDMDVTEHHTFRNGRLTETRMHTDTKDK 1429 MDEEQIKEIIERFFKAMDTGDLDTIRELFHPDARVHFEAYQITLTTLDEFIDFIRRWLEQFPDVRHEIESIHIDGDEVTVHWTAHFNHNGETQTFRYTTHIRFKDGKIVEMQIHENDER 1430 TDESQIRELVQQLFEAMNNRDRDTFKSLYHPDATMHIEEEQITFTTREEIAEWFTRFLKRFPNARFEIESMEIRGDTVTVHVTVHFTHNGQQYTYRYTRHFRFKDGKLTRDQMHVDNQE 1431 TDESQIRELKKRFIEAFNNKDWDKLRKLVHPDATFHFEKEGVTLTTLDEFVEWFKRFLKRFPDVQIEIKSVHIDGDTVTVHMTMTFTHNGETRHVNVTVHDRYKDGKLVESRFHFDDTY 1432 TDQEQEEHIREVLRQFYEALDKGDADKVASLIHPDATIHIARDQITFTNKDELKEWAERWFSQFPDIQRHIESIEFRGDTVTVHFTVHVTHNGKTYTVRVTDHYHFRNGKLIRVESHVQPE 1433 ADKEQQEEIKDILRKLYEALDRGDMDKFKSFFHPDATYHNIETQIKFDDLDEMKEFLARWLSQFPDTAHEIKSIHISGDTVTVHVQTHLTHNGKTYTYDVTEHHRFKDGKIVETHTQFDEP 1434 DTDRQEHIKELKKRFLEAFDRGDAEALAQMFHDDATITFASVQITFQDKEEFKEFVKRFASTFKGAQREIKSIEIRGDTVTVHVTLHVTHDGKTVTIQQTTHDRYKDGKLTETHTTTDSKDT 1435 DTEIREQIKQFLRRLFEAFDKGDWEKLARLFHDDWQFTSAAEGKTAHTKEEFIRWFREWVSRVPGAQREIKEIRISGHTVTVHVTQHRHHPGSTVTTHVTEHHRFKDGKLTETRQHMSTEQQ 1436 DTELKEQIKEILQRLFEALDKGDLDAVASFYSDDSTVHVSYEQITFKNKDELKKWLEEFKKHFPGSQREMESIEINGDTVTVHVTVHHTHKDSTVTTHQTRHLRFKDGQLKEDHIQTHEHQQ 1437 PQEEQIRQWLRRFFEAMDKGDWQTLHDLFHPGATIHFYNGVTLTTREEIARFFKKMTESFSDVKRQIESIEIRGDEVTVHWTMHTTQGDETYTYHATTHFRFKDGKVVEVHVHINQQD 1438 MSREEIKELIERFYAAFNTNDPDAVREALHPGAEVHSSKGITFTDLEEIKEWVERWAKTFQNTRIQIDRIEFHGDTVTVHVTIHTNHKDHTVTTHATHHWVFRNGRITHLQEHTDDQQ 1439 PEKDERTIEELKRRFIEAVAKGDDPDKLKKLMHPDAQFHDSNGQTFNSLDEIAEWFAEVQSKFKDMQVEIKRIQFDGDTVTVHVTVHATHNGRTVTYTVTSHDTYKDNRIVETHVHIDSND 1440 QDEEEETIKELLERFYRAIANGQSWEWIEEFLHPDFTMHLSNGQTFNDREEVARWFQEVMKRTKDTRIEIKSIEFKGDTVTVHVTVHTTHNNQKRTITVTHHWTFKDGKIVRLEERRDSND 1441 SDEEEEKIKELIHRFVELYAKGDDPSAFKSLLSDDWTFHDSSGRTFHSKDEFVEWVERALSQFKDSKIDIDSIEFKGDTVTVHVTQHATTNNQTYTFTITEHHRFTKDQIVETRQHRDSND 1442 DREEELKEALRRYYEALDRGDMDAAASLFDKDWTMHQTHSDGSQQDFTTKDEFKEYFREQFEKSDIKRGEVRIHVNDDGTVTVQIEVHVTHDNSTRTRDTHDTHVVKDGKFKETHIHWDYG 1443 PDEEIIKELLKRFYEALDKGDWKALKDLLDKDWQYHQTHSDGSSRTFTTLDEFVEWYKEQVKNSEVHRGDIEIRINPDGTVTVESEVHVHHKDGTKTVNTHDTHVFKDGKIVETHVHWDDG 1444 PDESEIRETIKREAEAFNKGDVDAWASLFHPDATMHIYNGQTFTNLEEIKEWFERLIKRFKDAKVEVKSIRFEGDTVTVHVTFHFHHDNETKTFHVTQHITFKDGKITEKRQQMDEER 1445 TDEEEIRQWLRRFYEALNNKDWEKVKSLYHPHATMHIWNGRTFTDREEIAEWFRRILERFSRVRFEIKEIRIDGNTVTVHFRVTFHHDNQTRHATVTQHFHFKDGKLTEDRIHLNQED 1446 PSEEEIKEWLKQFYEAMDKGDWQKLSEMLHPDVTITYEAFQITFHTLEEFIRWYRRFMSTVEIHRQITKIDIDGDTVTVHFTTHATHGDETYTMNFTDHYHFKDGKVTEIRSHSDQS 1447 PSQEELREWVERWYEIVLKTRDYETAAQLFSDDWTYHVYNGTTFTTKEEFKEWFKRFMDRFKDVRIEIDSIHVEGDTVHVHLTMTTHHGDQQYHFRTTDTHRFENGRIKETRTREHDTR 1448 PSQEELEEWVRRFIEEMDKTKDVDTVASYYSDDAQYHAYQGITFNDREEFKKWVEEFLKKFKDVHIEIKEIRVEGDTVTVHVEVHTTHGDQTYTFDVTRHFEFRNGKLVRDEERMRDTS 1449 MDEEQIKEFIKRWVEAFDSGDADAVLSFYTPDSRVHFYNGETLTTLEEIKEWVERWQKSVKDAKREIKKIDVENGTATVHMTLHVTHDTHTITVDQTRHLKFKDGKLKEDHLHEDQKP 1450 MSEEELKEWKKRFFEAFNKGDLDKIAELFTDDSTVHFSEGITLNDREEIKEWFERFMKRFERFRIEIKSIHIDGDRVTVHVEVHFTQNGQDFTTEVTAHDQYSDGKIKESRFHFRTR 1451 MSEEEIKEFKKRLVEALNKGDLDKVAELLDDNSRFEDSEGTELRDREEIREWFKQMFENIQQTHIEIKEIRIDGDTATFHVEQHTTHNGKQVTVEVTSHDRYSDGKLTETQVHRRQR 1452 PRDPSQILEWLLKALYEIFQNNDADAFAEMFSDDWTLHWVEGITYTTKRRVKEFFERFVKRYPDTQFQVDRVEVDGNRITVHVTVHTRHGDQTYTIHQTEHHQFDHDGKIKETRIHSDEKPT 1453 PRDPEQIAQTVVRRFYEVFNKGDADAFLEMISDDWTFHDSNNRTYTTRDEVKTWFEEFLKRFPDSKFEFKRVEIDGDTVTFHVTVHVNHGDKTVTYHVTEHHHFDKDGKIKETRAHWETREV 1454 PRDPEQIKEWVVKAFAEAFNSNDWELFMSIITPDWTMHDSSGTTYTTMDEVREWYERFLKRYPDAKFQVDRVEAEGDTVTVHVTITVNHGDKTYTFHQTEHHKFDHDGKIRETRFHIEQRPT 1455 SRDPSQIAEWLAKRLLEALNRGDVDAVMSLYTPDATMHIYRGETFTTLDEIRKWFETFLRTFPDTHFQIDSVEVDGNTVTIHVTVHTHHGDKTVTFHITSHFTFDKDGRLKEEHIHTEQRDT 1456 PGEEAIKELKKRMLEALDKGDMDKFKSLFHPDARVTFSRHQRTYHNLEEVVKFFKEVTEKFKDMRHEVKEIRIDGNKVTVHVTVHVTHDSGQTVTIDVTEHDRYDHNGKLKETDSHFNQKN 1457 PGEETVKEVLRRFYEAFNHHDLDKLMSHYAPDATVTFSREQRTFKTKDEIRKWFEEVLKKFKDARREIKEIRIDGRQVTVHVTMHVTHDNGQTITIDVTQHFRFDDDGRIVRDDSHFNQRN 1458 MSQEEIKETLARYIQEAINKGDADLLRELYHDDATVTFNGRTFNSRDEFKEWFERWFKSVDDTKAEIKSIEVDGDTATVHVTIHVTHGDQPVTIHVTSHFVFDHDGKIVREEINAQST 1459 PSQEEIKEFVRRIIEEAFQQKRVDLAARFYTDDVRMTYNGQTFHSKDEIREFLERFLRSVDDTKVEVKSIEVDGDKVTVHVEVHQNHGDQTQTYHITRHITFDKDNRIKEDELNQQST 1460 PEDEEKLKRWKKRFVEEVFRTGDADKFLSYVHDDATVHFSSTQYTTKDQLRKWMEEWSKFEDVKVKIDEIRVDGNTVTVHVTVHATNSTTGKTVTFHMTSHDRYKDGKLVESRIRIDPQPQE 1461 PDQEEIKRLLREYYRYLDTGDAADELFDEDWEFHNNGRTFTTKEQIKDYLRELQSFKDMRREIKEIRVEGDHVTVHGEVTRNETDKTTTVHFTDTHEVHNGKFTRTQAHYDEKDT 1462 TDEEQIREILHRFYRAIDNGDWETVSRLVHDDATFHDSGSKRTFTTREEVAEWVKQVASFDTAHHLESIEIRGDTATVHVQTHETHNGRKVTVDATHHWRFKDGKVVEVQGHYDST 1463 MSEEQAREFVERVLRRMSTQLDDDWRAHVHTKDSTITFENPREFLEWWKKWARSRSRDIKFEIKRVEVDGDTVTVHVTVTMHHNGQRFTYHVTEHHHFRNGKLVETHFHIHQEDG 1464 PEEEIREWVKRFIEAFDKGDWEKLVKLLHPGVTIHFDGDNVTITSQEEFREFVERWLSRFDEMHRTPNEVHISNGTVTVHWELHVTQGDKTYTIRVTTTFHFKDHKLTEIRIHFDTQPQ 1465 ASEEEIKELDTQRLEAIDKGDMDRVREYFHPDAEIHISMHNKTFTSRDEFVEKFMREFLSQFEDVHRQIDQMHVDGHTVTAHVTVTFHHNGRQYHYRVTYTVTYSSKKLTRMEIHVDSGG 1466 PSEEEIKEFKERLVEALNNGDLDTFISLVTPDATFHYSEGITFTDLEELREWVERFLKTFKDLRIEIKDMHIDGDEVTVHIQFHVTQNGKQVTIDVTYHDRYDKNGRLVSSRAHFNQQ 1467 PSEEEIRDTLRRFYEAFDNGDIETLQRLLHPDVEVHFWEGITAHSLEEFTEFVRRFLSRFKDVRREIKEIRIHGDTVTVTYTMTVTRNGKDYTYTGTDHFHLDKDGKIKRVQSQVHQT 1468 PSEEEIRDWLRQFYEALDRGDADKAADLFHPDAELHFSEGITLTTKEEIKEFVERWLKRFPDTAHHLESIHIHGKTVTVHVTVHVNRNGQTFTFHVTDHYHFDDDGQVKRMESHINQS 1469 PSEEEIKELLRRFYEAFNNNDLDKLVSYFHPDAQVHIFQGITFNNLEEFKEWLERVLKTFKDVQIEIKRIEIDGKTVTVHVTVTFTRNGQTFHVDVTHHWHFDDDGQIVRVEEHSNER 1470 PSEEEIKQLLKRYYDAFDNNDLDTLLSLLHDDWTYHNNSGNTITDREEFKEWVKRWLEKFQDTAHHMESIHIHGDTVTVHVTLHVTHNGKDITFHTTDHHTFDHDGKIVRTEAHVNQS 1471 PEPDKEKIKQFVERFAEAFQKKDVDAIASLFHDDATMHVYNGQTFHSKDEIKEWFKRFVDNNLDTKVEIKEIRIDDSRGQVTVHWTATVHHNGKQVDIHATTHFVFKDDKIVRVHIHEDQHTD 1472 PSDEEIEEWVRRFYTAFNNNDWKKLADLISDDATFHDSRGEEITDREEFREWFERVIKTFKDIQLEIKSIEFDKKTPRVTVHVTMHVTHGDQDTTIDVTHHWHFNKDGQIVEVRAHFNPR 1473 PSEEEIRQWVRRWFEAFNNRDVDALASLYSEDATIHFSEGVTVTNREQFKEWLERFTKRFKDYRLEIKEIRVDKSDPTVTVHVTIHFTHGNEDRTIDVTQHFKFDKDGKLKEQRVQIDER 1474 TSEEQIKEWVRQFYEALNNNDWEKVLRLLDDDWQFHNANGETYTTKEQVREFIERFLKKFSDSRIEIDDMHIQDGTVQVHVTIHVTHPDGSTQTVHIQEHHRFKDGKITETHQHTDEST 1475 TSEEEIRDVIRRLIEAFNNNDWEAILRLLDEDWQMHISKGETYTTADEVREWVERFLKSFPDTRVEIDELRIENGTVEVHVTFHFTDHNGQDFTIRVTEHHHFKDGKLTETHFHFDESR 1476 MSEEELKEFVRRLVEAFNKGDLDALAELYHPDFTYHHDSGSTIRDKEEFRQWVREWVEKAKDYRIEIKSLEIRGDTVTVHVQVHVHDDSRTTTVDVTSHFRFQGKRITEEHAHSDQKD 1477 MSEEEIRDFVRRFIEAFNNGDLDTLAELVHDDATFHFPDGSDIKDREEFKKYLEELFRRYGDFRIEIHSIEVRGDTGTVHWTLHVTKPDKHHTFHATTTFHFRGKRIVEVHFHVDQHD 1478 DPREEIKEIKRRFVEAFDRGDIDALISLFHPGFTFHWNNRTFNNPEEVRKFLEELIKRYKDSRHEIKSLEIRGDTATVHVQAHFHHEDKTRTITVRVDDRYKDGKITESRFHEDQDG 1479 PDQEEIKEIDKQRFEAIDNGDLDAVMSFFHPGATMHWNNRTFTTPEEIRRFFEEWLKRVKRSRHEIKEMHIEGQTVTAHVDVELHHDNETKTVTVTYTITYKDGKIVEFRSQEDQKD 1480 ASEEEIRDWLRKFYEALNKRDADTVASLFHPDATYQDSSTGKEYSYEEFKRWVERWLKSARNFHIQIEEIRVDDNTVTVHYTVTFNHPGETQHYRFTDHFHFRNGKLTRMQSTTDNR 1481 PGEEEIREIVKQFFEALDTGDMDKLRELVHPDAQFHFTHDGKTITMHSQEEFLEYVKQLQRKFKDVKRQIDHIEFNKDTVHVHWTMHVTDEDGTTVTFRGTTTFHFRNGKIVEVRFHVDTEQ 1482 PGEEEIRRILKEFYEALDKGDLDRIAELVHPDAQFHYTQNGNTVTFDSKDEFKKWVEEWKSQHPDVKRQIHRIEVNGNTATVHYTVHVNHPNGRTFTFHATDHFHFRNGKIVEVRSHVEQRD 1483 PEFEERVKDWKKKFVEAYQNNDLDKLVSLLHDDATIHHSSGETITNKEEIREFLKKLLDTNKDARVEIKSIEIRGNTVTFHVEMHTTHNGQKVTFRVTVHDRYENGRLKESRFQFHQEE 1484 SLSEEEIRQWVTRFIEAMFNTGDWKQAADLLHPDAKITFNSHQRTFDMEEMIQWLREWKSRVSDFKIQIESIEVRGDEVTVHWTATVTHNGKTYTVHGTTTFRFRGNRVTEVRIQLHTSDT 1485 MSEEEIKEFYVRFFTDAFNRNDVDALLEIYHDDVTFHHADGSTITDKEEFKEWVERFIRRFKDIRIQWDRIEVDGDRVTFHITIHFRQGDQDYTVHVTVHVTFSDGRITEEHEQSDES 1486 PSEEEIREWLKRFYEALDKGDLEAVKRLLSDDATIEISATQKEYDVEEFIEWVERVQKRAKRIHREIKEIEIRGDTVTVHVDVTFHHKDKTVTVSFTETHHFRGKRLVSTHIHVDERE 1487 TSEEEIRQILRRLYEAFNNKDLDTLEELFHPDATMHVEAENRTFTNIEEIKEWLERFMKRFDVKLDITRIEVTEDKATVHVKVHMHTKDSTHTFDVTEHHHFKDGRLIETRIHIRQVD 1488 TSEEEVRRIKKRLVEAFNNHDWEALKRIFHPDATIHFYNSDGSTITFTNPEEFEKWFREWAKTFPDVKIQVDSLEVRGDTVTVHVTMHVTHNTQDYTFKVTTHDRYKNGKLTETRGHYNTT 1489 MSEEEIKQVLKRFYEAFNNKDLDALSELFHPDATIHFTNHDGSTTTFEDPSEFRRWVEQMLRTFEDMKIEIKEIRVDGDTVTSHVTVHVRHGDQPQTYTVTEHHRFKDGKITETRTTWHQQ 1490 ASEEELRQAMRRFYEAFNNKDIDKLSELFHPDATMHVENPDGSRITFHDPDEIRKWIKQTADTNPDVKIQIDEIRVDGDTVTVHVTVHVTHNTQPQTYTVTEHHHFKDGKITETRVTFNQQ 1491 DEDKEEIKDIIRRWVEAFNRRDVDALLSLYHPDAQVHFSNGETLHNLEDIKKFLARLFSNMQEFQVEVKSIHIEPNHVTVHMQLHTTHNGEKYTYDITVHFQIKDGKIVRQHVHTNEKK 1492 DEEQEEIKEILRQYYDSFNKNDLDKAASLMHPDATVHYANGETLHSKEEIREFLERLMKTWQEFHVTIEEIRVEPNHATVHYTVHVTHNGKKITYHGTDHYRFENGKIKEVHSHRNQRD 1493 PEQEKEIKEILERYYEALDRRDVDAVLSLLHPDVQVHHADGTTLNSLESVKEFIERLLKRYQEMQHTMEEIHFEPDHATVTYTMHTTHNGQKYTFHGTDHFRFENGKIKRIESHVNQRD 1494 PNPEQITELLRRFLEEAWERGDLDALEEFYAPGAQLHIWNGITFNDREEIKRWFKEMFEKFPDTHVEIKHVEVRGDTVTVHMTFHVRHGDQKYTYHITSHFHFDKDGKLRREQAHEQQQR 1495 PNQEQIVDTVIKWFEEAFNKGDADAFASFYSDGAQYHNWQGITAHSREEIKELFERFLKKFPDAQFEVKSVEVDGDTVTFHVQVHVRHGDQKVTYHVTSHMHFDKDGRLVEEHVHLQEQK 1496 MSEEEIKEILRQLYEAFDRGDWEKLARLLHDDARMHVSEEGRTFTNKEEIIRWYQQWWSRHETQRGEIDIHIHGDTATVHVTVHHHNGDQTHTVDYTHHWVFKDGKVVEVRIHTDSK 1497 TDESQIREWKKRYMEALDKKDLDAIEELIHPGATFHFADGRTFRDKDEYKEWVRQWLSKYDPKSREVHIHVDDSRTVTVHFTVTVNQNGKEVHIHGTVHDRYENGKLVESQYHHEQRD 1498 MSEEEIREFIRQLLEALDRGADEAASYYHPGSTMHVHHKDGTITWNSKDEIREWLKRFQSQFEFRHEVEDMHIDGNTVTVHVTVHVTHNGETRTYTVTRHFHFEGKRLTEDHNNWDQA 1499 ASEEQIRQIVRRLFEAMNNNDVEKLKELYHPDARIHFAGEGYTATTREEFAEWFKKFWSRNQFTIEIEDMHIDGDRVTVHFTVHFTHGDQPFTTRITSHFQFKDGKLVSEHIHMNTEQ 1500 MSEEEIKETLKRFFEAFDKGDADKLRELIHPDATFHFTFSNTTITTLEEFVEWLKEFLKTFQIHLRHIESIEIRKDEVTVHWTMTFTHNGETYDIRVTTTFRFKDGKIVEVRFHFNQT 1501 MSEEEIREWLKQFFEAFDKGDLDKLEELFHPHARIHDESSNTTFTSREEFKRWVKEFIEKFQIHLVTIHSIHIHKDTVTVHWTLQVHHNGQTYHVNATTTFHFRDGKLVEVRFSYNDT 1502 PSEEEIREILRQFYEAFDKRDWKKLAELWHPDGTMHVTATGTTATTLEEVIRMIKEFASKFDFQVIQIDSIEFNGDYVTVHVTITFTHNGQNYTVTVTETHHMKDGKIVETRMQFDQQ 1503 SDEEEIEEIVRRLFEAMSKTGDADAAAKLLHPDAQYTNSDEQRTYDREEYIEMIERRVKNDLKVHIQIESIEIRGDTVTVHWTATTTQGDEDQTYRYTTHIRFKDGKIVELRETTIT 1504 SDAEEIEEILRRMFQRLARQKDPEAFAQIVHPDAQFHDSSTNKQYDREEYKEWWERLIKNGIDTQIHIESIEIRGDTVHVHWTAHHQQGDTTHTVRGTTTFEFKDGKIVRIQFTHRT 1505 DSEQQQRIKEWLQRFFEAFNNNDLDTLKSLFDDDWQYHDQSGETLHSKEDFEEWVKKFLSTFPNVQIEIKSIHIDGDTVTVHVQMHVTHDGKTYTFHVTEHHRFENGKLKETRITFDPHP 1506 PSQEEQIREALRRLYEALNRGDIDTLVSLFHPDWQFHHSSGQTFHDLEEFREWAERWARSNKEYRVQIDEIEFRGDTVTVHVTIHVTHDTGTRTIHVTDTHHFRNGKLTETRARYDEKQT 1507 PGEDTEKIKEFIQRFIEAVNHNDADALAELFHPGATVHFSDGVTITSKEEFKEWLEEWIKTFKDVRIEIKSIHIDGKTVTVHIQVHVTDKSTGQTFTFRVTVHDRYENGKLKERRIHIDKSG 1508 PDFQEEIKEIDTRRVEYVWRTNDADALFEIFHPGAEIHYYSEQVTLTDLEELKEWFKQLVERFPDVKVEIKSIEVRGDRVTVHVTFHFNQSEGTTTYQVTYTVEYKNGKITRYEVHIHQT 1509 PSSEEIKEFIKRLLEAWNKDADEFYEIVTEDWQYQDARTGQTYDAEEFREMVKQWQETFGDVKVEVHIDARLENDTVTVHYTVHVNTTTKTTTTDFTEHHTFKNGRLVRTRQHADTKG 1510 ASEEEVEDFKRKFVEAFAKDWREVRKIMTPDSTFIDARTGTEYSLDEFADWVRRFQEKFSDIKFEIDFNLEFHGNRVTVHVTFHANTTNRTYTFHYTFHDEYRNGKLTRSQIHTRQEG 1511 PEDEEKIRELVKRFYEAFNRRDLDALEELFHDDGRYHNSSDNNSYDKEEFKEWVETFLRQFPRARMEIKSIEVRGKTVEVTVQVHLYHPNRTQTFTVHDTYHVRGDKIVEIRSHVDDG 1512 DESTEKIRQWLKRYIEALNNKDLDALESLFDKDWRYHDARENNSYDRDEFKKRVETFLRQFPNVRFEIKEIHFDGNTVQVHVQVHVHHDDQTRTYDVTEHHRFEGDKITETRVHHDST 1513 PREDEMKEKIKELKRRIVEAFNKGDLDALASLFDPGATFHLSNGQTFTTKEEFREWVKQFIDANIKIQVTSMEIQVTDDTHVTVTVHVTIHQTGTGKTVNITQHDHYRFENGQLKIVEVRTQVDEG 1514 PKDEKAKEDIKEWFKREAELFNNGDMDAWASLFHPGSTFTDASTNQTYNRDQLKEWFTEMFKNDVKIEIKELRIEKKSDKTFTVTVHVTFHMNHNGETRTVHITFHDHFELNGSEWRLVHRRIQTDGS 1515 PDQEKAKEDIKELVERFYRAFNNNDLDALKSFLAPDWRYHDSRTGQTYNAEQFLEMVEKMLRQDTHLQIDSIRIEQKDENEFTVTIHVTMTRTHNGQKQDIHVTDTHRVRKHGDGFKFVETRTRFDNG 1516 PREDEIKEAIKETLKRLYEAINRGDADAVAELFAPDWRYHNKSENQTYNKEQFREMIKKMFSNDTRLQIDQIDIEIKSKDTATVTVHVTFHTNHNGQTYTVHVTDTHHFEYQDSRLLLRRTESQFDGG 1517 PSEEDQEALRQTKRRYVEALNTGDLDTLSELLTDDSTFHHDDQTFQISKEEFKEWVKKMNSNDTKIQIHSIEVHLDSDGTTFTVTVHVTVHHNHGDKTKTVHVTTHDHYKKTDNDFKLKETRTHTDERS 1518 ADPSDQEAIRQVVERYYEALNKGDLDTLEKLLTDDWTLTTDNSTQPVSRDEFKERVKELLKNNTQIQIHSIEVRQHDNGTEFTVTVHVTVHHNHGDRTKTVHVEDHHTLRKDDSDFKIVHTQSHRDERS 1519 PDPNDEEAIREIVRQMFEAFNKGDLDAIASYYDDDVTFHHDNQTFQISKEEWKKWVEEVLRRDVKLEIKSIEVRQHPDGTHFTVTVHVTVHQNRGDKTHTVHVTRHFFFRKDDSDFKLKEDREHTDNRP 1520 PGEKTLQEAIEETDRRRVEAINKGDWKKIKELFTDDATFHHQSGQTYDHEDFLRWVKTMHSQQWQFEIKSIEIHIHPNGRTVTVHVTVTATNQRTKQDVQFHYTIVYVFENGDVKVKEMHLSTDH 1521 PGEETAEEQIREWKKRFIEAVNNNDRDKVKELLTDDATFHDANGQTYDADEFADMVEEFARQDWKIQLDSLEIRFQPDNEHVTVHVHITVHNDSTGTQIHFDATDFYRFENGSLKLVSTQYHTNN 1522 PGEEEAREKIRQVKRRLIEALDKGDWETVKRLFDDDFTFHDASGQTYDADEFRRMVEKMASHDVRREIKSLEIRRDSDNHNFTAHVHLTVQDSRTGQEVKFTATDFYRFENGSVKIVETHLHTDS 1523 DVDPSQIEQLEELKRRFVEALNKQDLDKMKSLMDDDSTIHSNPMNRDQFKEWVERLAKATKDARIEIKEIHFQLRSKDTVTVTVHITFHATHNGKTKTVHITYHDHYVQTKDGWKLKSTEERSDEP 1524 DMSKEDQEQIEEWVRRLIEAINKQDRDKVLSLYHDDSTNDSNPMDAEELKEWIEKMLRDLKDSRIQIEKIDFEQLDKDHVRVTVHVTIHRTHNGRTQTVTVTSHFIFEKDKDGWKLKSEEERRTNQ 1525 SQNEEIKKAVRELLKRLFEAFDKGDADAMKSLMHPDWRYTDASTQTTYDLDEFREWVERWQRNFSTRHEIKSIEIEIKPDGTVTAHVHVTTHTTHRNGEKRTFDVTETHHFDIGPWKVKETRVQYDNKG 1526 PDDEEAKEAVKQFLERYFEAINKKDVDALRSLFDDDWRYYDARTNQTYDADEFAEWVERFQSNFDSQIHIHSIEIRIHSDGTVTVTVHVTVHMTHPDGQTQTVKVTEHHRLDRREWKILETRAHWDNGG 1527 SDEEEIKEAVKEVIRRYMELMDNKDADAVASLYAPDARLHNADRNETYNFEELKEWYRRFLSNFDSKHDIKSIEIRIHPDGTITVHVHVEVHVTHKNGQNHTVRYTYTFVLDQSEWRIKEVHVHTDNGG 1528 MSDDEMREAAKDWLRRYFEAWNKGDLDKLRKLYHPDATFHDSSGQTYDKEEWVKRAEELLKTFDFTLQVDEVRAQVHPNKTHITVEVHVTAHVHHQSGETRTQTVTSEFHFQFENGQIYLLEEHVTTEQK 1529 SVGEETIERLIRRFYDAMNRGDLDEFISLLHDDWRWHDTDRGETYDKEEWREMWERRFRNSDFRVQIDSMEIRQVDENEYRVTVHVTVTHHDGNRTRHIHIEDHHRFRQTDGELKLVETHTHTDPG 1530 PMSEEAVREVIRRWFEAWNNKDLDKLASLYHDDATFHFKSHNQTYDKEEWLEWVKQLLRHSDIKVQVDSLEVRQVSKDEYTVTVHFTVTHHDGNETRHIHITAHFHLRYSKDSVKIVEQRDDYNSG 1531 PMGEEELKKFLKRLYEIMDSGDADKFASMFHDDVTFHNADTNQTYDKEEMLELLRRFASNAETHRQIDSIEIRYVDKDEIRVTVHVTVQVHQGNKTEHYHITHHWVFRYTDNRVQIVEVHESRDPG 1532 SSDREAVERMVRRYFEAWDKKDWEKLASLFDEDWRYHDAETNQTYDREEFIEMFRRFASNAQVHHEIHSLEVRQVTPDTFTVTVHFTVHEHHGNETHTFRVTEHHHFKDTKDGVKVQETHVHFDSE 1533 PASQEQVERLIRREAEALNKNDLDAWASLFHDDATFHDPDRNQTYDKEQMRKMIEEFIRNTDFRVHIDSIRIEQTDKDEYTATVHWTIHEHRGNETHTYHATTHDRFRYTDGDLKIIERHTTTDPG 1534 DTEELEEAARQIVRRLIEAFNRGDMDELSELYAKDEFTFTQYQGQTFSYEEFITMLERRFSNDTKVQLDSIRIEIKSKNEVTVEVHVTFHTHHNDETQTYHVTSEMHIRKEGDSWKILEEHERTNST 1535 SDEEAEEAARELVRRYYEAINKGDLDALQSLIDKDTWRYHTSSGTTYDYEEFVKMIEELFKAGVHVEIKGIEVRIVDKDEATVTVNVQFHQNHGDRTKTVDVEDHHHFRKKGDSWKLTRTETHHRST 1536 DQPEDDEEIKELIERMYRSLNENDIDKAASLLDPENFRYHTDSNTEYDYEEFLEMIERMASQGFRIQIDSLEIRWVDKNEVRVTVHVTIHVRHGDKTTTFHATHHWEFVKEGDSWKIKRLETHRNST 1537 DEEEIKSAIEELKRRLIEALNRNDMDTIRSIFDPTNFRFHQWQGQTFDFEEFITMIERRASAGFEIQLDSLEIRVQSSNSATATVHITVHFHHGDKTQTYHYTFHDHYRKEGDSWKITHTQEHRHST 1538 PDPSERQEQIKRIKERYIEAVNKGDLDEIRELIHDDARVQAEPLDKDQIIKMVEEITRNDLKLQLDSVEIHVDENDQVHATFHVTVTDGRTGQTTHVTYHDVYEASTELKIKSTTSRNDS 1539 ADPKEIIEQAEEVLRRIYQAFNEGDVDAVADLFHPDARIQSEPLNRDQFRDWVEKFFKAGFEMHVESIEFRVDHNDEATVHVHVTVTDRRTGSSIRVQETHRVRYSNGLRIVSTRTHNDS 1540 PDPSEIISQAREILTQFYEAINKGDLDRIEELLDDDVRIHSSPQDKEQFKEWVEKLTRNNFHLEIKSMEFRVDHSDEITVTVHVDITDQRTGRTITVTNHDFLRYKTELRIVSHTWQNNS 1541 IDPKEAEEQIRDLVRRFYEALNKGDAEAVARLLHPDVRVHTNPLDREQIKEWVEKFFRNNFEVKIDDLEIRFDSSERVTVTVHVTITDRRTGTTFHVTHHWFIDQSTELKIKHVREHNTS 1542 PSEEEQREEIKQLKERFAEALNKGDVDAVMRMYHDDARVTANPINKEQIKKWVKEWHDQGWEVEVKSLEIHVDENEEVHATAHVTVTDRRTGQTFHVTYHDVYVLSNGLKIKSTQSHNDS 1543 PGEESAREIIKEIKRRYVEAMNNGDADAAAAFFTDDATFWHNGQQQPLSREEFKKMIEEFFSKIDVKVEIKSIEIRIYDDGRIEVTVHVTFTYSETGTTADVDQHDVYREKDGTMKIIESRTHTRRKQS 1544 PGEKTMEEQVREVIQRFYEAMNNNDLDTLAELFTDDATFYHNGQQYDLSKEEFKKWMEEFLRHMDVKFEVDSIEIHIHDDGTVTAHVHVTLKHDKTGRTFEVTETHFFVVRNGSVKIKETREHTDSTKD 1545 PGEKTQQEQVREFVRRLITAFNTGDADAIKSLYTPDATFTHNGETYQLDQDEFKEWVEKFIKNLDFRLEIKSIEIRVDHDGTVTVTVHVQQTEDKTGRHFHFTRHFFFRFKDGEIRLKRDEEHTEERKD 1546 PGKKTIQEQVEEIVRRYYEALQNRDADKIASLFDKDATFTENGETHPLDKEEFKKRVEETLRKFDFRVHITGIEVEVKDDGTVTVTVHVEFHFKETGRTFKVTEHHQLRVENGSVKIVRTETHRDSTKD 1547 PGKETIEEQIRQWVHRYYDAFDKGDADTLASLIDDDWRYTTDGQTFQVSREEFKEAMEKIAKSVQTAHQIESIEIRVDDSGTATVHVHVTVHDSKTGRTFRVTDTHFFQLKDGELRLVETRTTTRSTSD 1548 SSEKEIREAVKEMIKRYIEAFNKGDLDALKDLYDKDARFHMGGYNLEQYTEWVRQLLESGTKVSLDSVEIHVNDDGTATATIHVTFHTHTPTSTHTVHVTRHLHFRVQDGRYKIVRDEIRENH 1549 MSEEERQSAVKEVLRQLYEAINKGDMDKVRSLVHPHATFHDSSRNQDYNREEFIEMAEKLTKNGVHFEIKEIRVQFTDKDEATVTVHVTVHHHHGDKTKTVQVEEHHRFRFKDGDVKLVETRAHFDDT 1550 MSEEELKKAIKEFDEERAKAFNTGDWEKLRSLMHDDATVHNYAEGQTYNRDQFLEWVKKMHSQGTRIQITEIRVQVTDENTVTVEVHGTVHTQRGDQTYTVHATYTMFYRFNNGDIKVIRMEIRLDNS 1551 PSEEELKKQIEETLRRLFEALNKGDLDAFLSFVDDDWRFHNTATNRTFDREEFRKWLKEFKENGAQIDIHEIRVQVTDQTNVTVTVHVTVHHNRGDRTTTIRVTEHHHFRFENGSVKLVRTQVHVDNT 1552 ASEEELRTQIKEYKRRLVEAFNNGNWEEFKRLVHPDATFHISATQRTYNADEFVEMLKELWKNGTRIEIKQIDIQFGERTHVTVTVHFTVHTNHGDKTRTIHATAHDRYRFKDGQIYLIESQFHFDNS 1553 MSEEEQKKAVEELVRRLVEAFNKGDLDELKEIYAPDATFHYNSTQRTYSKEEFIKMVEELTKAGTQIEIKEIRVEIKDDTTITVHVHVQVHTRRGDRTTTFDATRTFHFKLENGSFKLKHDQVTIDNT 1554 MSEEEMERQIREFKRRFIEAFNKGDMEKLKSMFHPDAQFHFANTQRTYNAEQFIEWLKRVLDNDTQIQIDSMEFRFGDSTHVTVHVHVTVHTNHGDRTYTVRVTATDHYRFENGSLKLVRSQFHHDNT 1555 PSKKDEEDIREFKRRYIEAFNKGDWEKLKRLIHPDATFHQNNTGRTFDVDEWVEMLKQLADQGVKIQLDSLEVQQRSSETVTVTAHVTVHDSQTGRTRHAQQHDRYRKIGDTWYLIETRVTRHGH 1556 PSKEQEEAVREILRRYVEAVNSGDADQLKELYHPDATFHQDDTGRTYDLEELREWYERMFRNNVRMQVDQIDIQVDDKDQVTVTVHITFHNASTGTTTHAQYHFTIRKEGDSWKIVEVHVRTHGE 1557 PSKKQEEDIKEILKHYIRAINEGDVDAVASLYHPDARLHQDGTGRTFDYEEIREWYERMVRNDVKVQLDSVEIRVDDKDQVTVHVHVTYHNGKTGSTRHATQTFTVRLEGDTWKIVEVHVTTHGE 1558 DEEEAQEQIKEMVEREVELLNKGDMDTWKSLVHPDATIHFSNGQTLTDRDEMKEWYKRFFETTNIQITIKSIEIQYGDKGEATVTVHFEMHRHTKDGTITAHFTAHIRVRLDNGGLKILSKEVHLDNRGG 1559 DESEAEEQIREFIRRFIEALNKNDADTLASLFDDDWRLHVADGETITTREEFREWVRRFYSEFDFQIQVDSLEVQKSHEGHYTVTVHVTVHFHHKDGTVTAHVTEHHHFRRDDGGMKVVETRVTIDRRGG 1560 DESESEEQIREFIKRYYTAFNNNDLDALAELLAPDWTFHHSNGSTITNLEEFKEWVRRLIERFNVQMEIKSLEIRKGDEGTATVHVTVQVTFHTKDGTYHATVHDTHHFQLDDGGLKLKETHSRWDHSGS 1561 SESEAEEQIKEWLKRFYEAINKGDLDAAASLLTDDWRYEDSSGEEITSREEFKDWLRRVMERFNFQIEIKSIEVRYGSPDFYTVTVHLEVHFTHKDGQYTRDTTDHHVFRRGNGGMKIVETRVHWDDKGG 1562 DQSETEEQVRETLRRFYEAVDKGDAETAARLLHDDWQFHNSKGETIHTLEEFKEWVERFFKNTDFQRQIDKQDFQPGPEGTMTVTVHVTIHFHHKDGTVTVHVTEHHHVRRDEGRLRIVRTQVHIDERGG 1563 PSEEDEQAIREIVERFYEAINQGDLETIDRLVHDDATIHDSSTNTDYDKEQFIRMIEKLFKNDFKLEIKSIEIHQDGNNDFTVTVHVQIHVTHNGENQTYHVTHHWFIRKKDGRYKIVEVRIHWKGNPS 1564 PSEEDQRAIEEMLRQFYRAFNTGDFEQIDSLVHDDATFEDKSTGQQYDKEQFREMFERLVKNNTKIQIHGIEFRSNGNNTYTVHVHVTFHTTHNGENHTQRVTETHVFEKRNGEWYIVETKFQYDGAPS 1565 PSEEQERKLREWKQRYVEAFNKGDLETIKSLFHDDATFTDSSNNQSYDKEQFIERIRRLQSNDTKMQLDSMEIRLNGNNTATVRVEFTFTTNHNGKTQDQRFTYTDFYRFQDGSLKLVRTEIHRDGAPK 1566 PSEEEEKEIRRLVKEFYDAFNNKDLEALASFYAEDAKFHDARTNQTYDREEIKRMIEQMLRNDVKMQVHSIHVQSNGNNTITVTVHVQVHETHNGKNQSFTFTQHYFFVKQNGSWKLVEDRLHLDGAPQ 1567 PDPSQEEEIKRLLKEYYEALDNGDLDTAASLMTDDWRYHDARTGQTYDKEEFKKMVGERFKRSDFQRHIHGIQIDDAKGNTVTVTVHVTVTHHHNGKQFHTHYTDTHHLTFFNGELKIVETRSQWDDKPD 1568 VDPSQEEKVRQFIRRYVEAWNNKDVDALASLYADDARYQDSRTGQEFDKEEMRERYEKFAKNSDATMHIDSIEIKDAKGNHVTVTVNMTVHVTHNGKTITIKVQYHFFFKFENGELKLKRLTSTHDEKPD 1569 ADPSQQEAVRQVDKERVEAFNRNDVDRMASLFHPDARIHFAPTGQTYDRDEFREWVERFLKNFDVKVQIDSIEIKDAKGNEVTVTATFTMHVTHNGKTITVHATYTIRYRLKDGQWKIIEVRIHRDEQKD 1570 MSEKELQEALKEWVEREIEAFNKGDMEKWKELFHPGSTFQNESTQQTYDREEVIKMIEELLSNGVKIQLDRLEVQFDHSNHITVRVEVQVHQHHGDQTHTMNVERHDHFRLKDGQFRLVRRQVRIDNT 1571 MSEEEMKEAVKDWVRRYFEAINNNDLDALRRLYTPGATMHIARESQTYDYEQIVKWYEEMLRSDLKMEVKSLEIQIDHTNEATVTVHFTVHENHGDQTHTFRAEAHFRFRFENGQLKLLEVHFHFDQT 1572 MSEEELREAIKDWFRRYVEAFNKNDLDALDSLYHPGVTMHIKENNKDYNKDQIREWYERLLSQDTKMQLDRLDIQIDHTNEVHVRVEMTFHTNRGDQTHTVHVQAHFRFRFENGSLKLVEVHFQFDHS 1573 PGEEEAEKQIRELVRRFFEAIDKGDLDQLLEMLDDDFRFHDASKGETYDKEEFAEWAERLASQDSKHDIHELHIEFNGDTITVRVHWTLHLTHGDQQYTFHGTTELHFERNNGTLYLKEMRVEIHGE 1574 PGEEEAERAIREWVRRFVEAINKGDMDTVDELFTPDWRFHHRSTQTTYDKEEFREWVEKLFRNDTKIEIKSLEIEIRGHTITVHVTITVHTNRGDQTYTFEVHETHHFERREGEFKLVRTEAETHGE 1575 PGEEENTEVIKELLKRFYEAIDKGDWQAIHDLYHPDARLHNRSHNQTYNREQIVRMAEKQASQDTRRQIDEMHIEVRGNTITVHVHVTVHVNRGDRTETYTFTQTFHFEYSNGEFKLIEDHVQTHTN 1576 PGEETQKEQVKEWLTQYFDLINKGDADAVASLYHPDARVHNSSHNQTYTYEELKEWYERLASADFQIQVDSIEIEINGDTVTVHVHYTMHVNRGDKTYTFHGTTTFHFENQDGSMYLVEVHTTTHSS 1577 PEDEEAIKEIKRQLIEALDKGDMETLRQLFHPDVTFHHKDQTWNLNIEEWLERVARTLSNVEVHRHMKSIHIQPTTETTWTAEVHLEVHETHNGQKHTFRVTQHDRYVKLGDEWKILESESHRDST 1578 VDESEQREAIKEWLQRYYEALNNKDWEAVASLYTPDSQYYQPNGQQYDREQFIDMIRKMLSRNDVQFHVKQIDIEVKPDGTVTVTVHVEVHETHNGQQYTFRITQEFRFRYEDSEFKLKEDHVRRDDG 1579 PKEEEAKEAIKEWLKQFYEALQRHDVDAVASLYDKDSRFHDSRDPRTYDRDEFREWVERMLSSIDDFKVEIKEIRIQFNGEDRVTVEVHGHVTFNHGDSQRHATVTQTFVFNLKDWKLVEDHATFHDHT 1580 PEKEIREQIKEIKERLVEALNKGDMDTFASLFHPDAQMHISRGRTFNSRDEIKKWFKDYKETFDVRIQITSIEIRISDSNQATVTVHITFHYNEDNKTVDYTFHDRYVIKDGDMRIVRSQIHSHER 1581 PEEDEMREQIKEFVKREFEAINKGDLKTWEELVHPDATFHNSSEGRTYDVEEMKERIKKFVEVPTQIEVKSIEIQINKNGEATVTVHVQVHEHHGDQTHTFNITQHDHLRRINGQWYFIERHVTTDST 1582 PSEEDEKEIRETKRQYVEAWNNNDLDKLADIVHPDAKYASRNLDYEEYIEWVKRWMERFKNVQIQIHSIHIQQDGSDNITVTVHFTVTEHHNGQQQHHRYTAHDHYRKSNGKWFIVRMETRRHGS 1583 PSEEDERAVRDVVRRFYEAINHNDLDKLLELMHPDATFRARNLNYEQIKEWFREWMERFKNARLEIKSIEVRQHGSDTFTVTVHVTMHVTHNGQDQTYHITHHWVLVKFNGEWKIVSVEERTNGG 1584 ADKEQQEDIRRIIQRLVEAWNNNDLDTWLSLFDKDWRYSSRNIDKEEFREWMERVIRTFQDLKVQLDSIRIELDGSDTITVHVHITFHHYHNGQQHTHHVTETHHFVRKEGRWYIVRTTTRRTDG 1585 PDEEEQEKVKKFIQRYVEAFNNNDLEELESLYHPGAQLDINGVDLKQFKEIVERLIRNGFEFRLEIKSIEIRKDGDEITAHVHVQVHTTHNGKTDTVDVTQTFHFDTRHDQLKNHQVHHQGS 1586 SNKETEELVRELIKQWFEAVDTDPDKAASYYDEDAQVHSSTGETLHDLQSIKDYIRNHSKDYQHELKSIEIRIHPDGTVTVHVTFQVHDRTTGQTYTVHTTFFIVQKGDTVYIKEQRTTIHTG 1587 LSEEEIKEWLKRFYEAVDRGDRDKIRKLLHPDVQMHSASGRTFNNIDEIIKWLSEFTSRGFKRHIREIHIEITKDEVHVTVHAEIHFEKTKQTIKFTHHWTFDLRHKKIVSVQFHETG 1588 PSDEELKEWKERFIEAINKGDLDKLRELLHPDVTFHIWNGRTFNNLDEVLKWFEEFTSQNWHMEIKDMRIEHKDNEIRVTVHITVHNDSTGQTFHFTFHDRYDKRHKKLTESRIQETQ 1589 LSKEEARELVERFFEAFNRGDMDAIREIVHPDAQFHDSNGEQLTNIEEIVEWAKKLFDQGVEIQITEIHVEVTETHVHVTVHWNGTDRRTGRTFRGTTHFVFDKRTKKIVRLEFRHTG 1590 DTPEDEEAIKELVKREVEAFNKGDMDALASFYDDDAQMHLSNGQTFDTKEEIKKWLEELSKNSQIHVESLHIQKDDDNTFHVEVHAQMRNKTTGQDVTVTRHVTVKREDTGLKIKHDQVRIDSN 1591 KDEELEKAAREVVRRLIEAINTGDLDTLKELYAPDAQFHVWEGRTFDTLEEIAKWFKEFAEKFDLEIKSIEIRIDDDDRVTVHVHVKVTNRETKQDFTFRSTMHLKFDHGGVKIKREQVDVDPN 1592 DKEEDETDIKEILKRLFRAMDEGDMDTMKSLFDEDWQYHNTSGRTFTTLEEFAEWISQFSSDTAHHIKSIEIRKDDNNQLEVHVHVEVHRSSTGQTFRYTETHRFEKKDGSWKIVETRQHVDPS 1593 DDEEMEEEVRQLVRRLAEALNKGDRDAIRELYHPDARMELWNGRQFDTLDEIVEWFMKWASHFDIEIKSIEVRVDDNQTVTVHVHFEATDRRTGKTVTFTSTIHFVKNDTGMKIKEEQIHADSN 1594 PETEEQVKDWKKKFVEAVNNGDMDKLRELFHPDARMHLSNGRTFTTLDEILEWFKKWASTYTIHIHSLEIRENDDGSVTVHVHGTVHNRRTGKQVQVTATDHYDRSRNKLIRSQFNFDPQ 1595 PDLQEEIRELVKRFYAAMNTGDADTLRDLFHPDATMHLSNGQTFTTLDEILEWLIKFASHFDFQITSIHIQVNHDGTITVTVHVTVRDRRTGQEYRVTDHYHVDSRHGKIIEVRSHVDST 1596 PDFQEEAKEIVRRLAEAFNKNDRDKLKDLFHPDAKMHVYNGQTFETRDEIVEWFSRLASHAQIHIHSIETHLHDDGSVTTHVHWTMTDKRTGQNFTGTTTFHVDRRTGKITEVRIHIDSN 1597 SDESEIEEAIRQIVRRLVEAFNKNDMDKLAEIYDKDATFHINGQTFSDLEEFLEWVKQVVSRGVQVTFTVEIHINGDTVTVHVRATFHFESHNQTFTGHSTIHIRLEGDQWKIVEEHLQIDQN 1598 SDRKEFEEEIREIIRRMFEAFNKGDRDTLRELYDKDATIHINGQTFTSWEEFLKWVTDVNSRGVRVEFRVHVEVHGDTVTVRVEAHLHQESTGETYTVRSTIHFRLENNRLKIVEEHVQVDKQ 1599 ADESEWQEQVKQWVERFVEAFNKNDRDALRELYDDDSTVHINGQTFTDWQEILEYISQLASTNAQVTFTIEIHVSGNTVTVHVTLTVTQENTGRTFTVHSTFHFELQDSQLRLVEEHVQTDQN 1600 NDESEFRQVIKEWVERFFEAFNKNDRDELRKLLDDDATFHINGQTYSTIEEFLEWIERVWSRGVQVTFTIEVHVDGDEATVRVEWTAHFKSTGETYHGTTTFHFRVEGRQFKIVEVRIQMDKS 1601 TSEDEFKEQVKEVLNQFYEAINRGDRDTLRELFSKGGTVHFQNGRTFTDQEEVVDWFSKFASSGFRIEWHIEIKEITEEHVTVTVHIRITDQNNNTQNVTDHYFMRLENGTWKITEVRSQYDN 1602 MSEKEIREAIKEFLERFYELLDRGDLDAIASMYADGATMHLENGQTFNSKEEIKQWFEKQISSDMRREVEVHIREISETTATVTAHVTLHGKDGTTIHITQEMHIEFQNGSIKIKEDRITTDS 1603 PSPEDQEKIRQIIRRYYEAFNKGDADKMAELFHDDWTFHHANGQTFTTKDEFREWATRLLSQNLTIEVEVHIHSGSKDEVTVTVHFHVRQKDTTFTEHHRFRKDKDGRLFIVETRVRQDGS 1604 MSKEQEDQIREWFERYYEAINKKDLETIVRLVHDDVTFHHDNGRTFTTKEEFKEWVKQILDQDWTLRFSIRIDSGSEKEVTVTVHVTYEQEPRTVREEHHFRFNDDGSLRVVETRFDSHGG 1605 PDPHVLEAIKDFVRRYAEAFNKKDLDTLVSLFHEDWTYHHSNGQTFTTRDEYREWVKRLLEQDWTIDVEVHFTSGSEKEYTVEVHFTFRQQPMTVTEHHRFRRHDNGQVRIVETRARWHGG 1606 PSKEQEEKVREWLERFYEAFNKKDLDTMASLVHDDVTLHLSNGQTFTTKDEIIKFLKELLSQDLTLEFEIHIDSGTEEEITVTVHVTIKQIDQTVTHHWFFRFDKDGNIYLVEVRENLTGK 1607 PSEEQEKAAREVIRRFYDAFNKGDIDKIAELIHDDATLHIWNGQTFTTKEEVIEFIQRLLSQNIQIDFEIHVKGGSKDEVTVEVEVHYRQSDMTVTHHWFLRRLPDGSWKVVELRARSDGK 1608 MSEEEIRQLKRRLAEAFNKKDADAIAELFHPDSRVTFASDNRTFTDKDEIKEWFTQYASRDIQVEIKSIEIRGKTVTVHMTFHNKRTGTTTHATFHDHYDDNGRLASSEIHFNTQN 1609 PSEEEIREWARRYYEALNNNDADTAVSLMDDDWTVHFSEGRTFHSKEEFKKWVEEMLSTDVKIEIKDLHIEGDTVTVHGTVTRTHNGQTRDLRTTDHHTFDKNGRITETHFHHDQQ 1610 PISEEQIKEFIKRFFEALNKGDVDLLAELVHDDATFTHNNQTFRMSKEEFREWVKKWLSSDTQIEIKSIEIRGDTVTVHWTAHTNKGDRTQTVHGTTHFEFDHDGKLVRVQTHNNPTS 1611 PVSEEQIKEFKKREVDAFNTGDMDKLADLYHDDATLTHGDQTFPMSKEEIKKWFEELFRNDTKFEIKSIEIRGDTVTVHVTLHTNHGDQTTTIHYTYHDRYQPDGKLTESRESEHPTS 1612 PMSEEQIEELVRRFYEAFNNGDLDKLREIMHDDATWTNGDQTFPMSKDELIEMFQKMLSTDTKLEIKSIEVRGDTVTVHVTVHTNHGDRTHTFHVTHHWTFNKDGKIVEVRQHMQPTR 1613 STSQEQNKEIDTRRVEAFNKGDWEKLSDLFHDDATFTHNNQTQPRSKEEFIRWVKKVHSNDTKFEIERMEAHGDTVHVEVTVHHTHGDKTTTVKVRYTVRYHSNGKILEYHEHRHPTS 1614 PISQEQIKEFLRQFYEALDKGDLDKLRELVHDDWTYVNNDQRYHMSKEEFKEWVKKFASSDTKREIKSMEIRGDTVTVHVTLHTNHGSETKTIQYTEHHRFDHDGKLVETQQHEQPTS 1615 PASEEEIREWLKQFYEAFNNKDWKKLADLMAPDARMEVTQSNGQNYEFTTKEEIIRWFQQLMSQFDSIEIKEIRIDQDRQTVTSHVTVHFTHNGQRFTVRVTEHHHFDHDGKARETKTTFDHGG

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We claim:
 1. A polypeptide comprising an amino acid sequence at least 35%, 40%, 45%, 50%, 55%, 60%, 65%, 70%, 75%, 80%, 85%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98%, 99%, or 100% identical to the amino acid sequence selected from the group consisting of SEQ ID NO:1-1615, not including any functional domains added fused to the protein (whether N-terminal, C-terminal, or internal), and wherein the 1, 2, 3, 4, or 5 N-terminal and/or C-terminal amino acid residues may be present or absent when considering the percent identity.
 2. The polypeptide of claim 1, wherein 1, 2, 3, 4, or 5 N-terminal and/or C-terminal amino acid residues are absent and are not included when determining the percent identity relative to the reference amino acid sequence.
 3. The polypeptide of claim 1, wherein all amino acid residues in the reference sequences are included when determining the percent identity relative to the reference protein.
 4. The polypeptide of claim 1, wherein the polypeptide comprises the secondary structure arrangement H1-L1-H2-L2-E1-L3-E2-L4-H3-L5-E3-L6-E4-L7-E5-L8-E6, wherein “H” is a helical domain, “L” is a loop domain, and “E” is a beta strand domain.
 5. The polypeptide of claim 4, wherein domain H1 is 19 amino acids in length, domain H2 is 7 amino acids in length, domain H3 is 14 amino acids in length, domain E1 is 4 amino acids in length, domain E2 is 4 amino acids in length, domain E3 is 10 amino acids in length, domain E4 is 12 amino acids in length, domain E5 is 14 amino acids in length, and domain E6 is 13 amino acids in length.
 6. A fusion protein comprising the polypeptide of claim 1 fused to one or more functional polypeptides.
 7. The fusion protein of claim 6, wherein the one or more functional polypeptides are fused to the N-terminus and/or C-terminus of the polypeptide.
 8. The fusion protein of claim 5, wherein one or more functional polypeptides are inserted internally into the protein.
 9. The fusion protein of claim 8, wherein the polypeptide comprises the secondary structure arrangement H1-L1-H2-L2-E1-L3-E2-L4-H3-L5-E3-L6-E4-L7-E5-L8-E6, wherein “H” is a helical domain, “L” is a loop domain, and “E” is a beta strand domain, and wherein each of the one or more functional polypeptide inserted internally into the polypeptide is inserted into a loop domain.
 10. A nucleic acid encoding the protein or fusion protein of claim
 1. 11. An expression vector comprising the nucleic acid of claim 10 operatively linked to a suitable control sequence.
 12. A host cell comprising the expression vector of claim
 11. 13. A library comprising 5, 10, 35, 50, 100, 250, 500, 750, 1000, or more different polypeptides according to claim
 1. 14. A method for using the library of claim 1 for identifying or designing enzymes or small molecule binders. 